first correlating revision no. 2-nfpa 99-2015 [ section no. 1.3.4 ] · 2016. 3. 18. · first...
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First Correlating Revision No. 2-NFPA 99-2015 [ Section No. 1.3.4 ]
1.3.4 Patient Care Spaces.
Global FR-113
1.3.4.1
The governing body health care facility’s governing body of the facility or its designee shall establish thefollowing areas in accordance with the type of patient care anticipated (see definition of patient carespaces in Chapter 3 3.3.113 , Patient Care Space ) :
) Category 1 spaces
) Category 2 spaces
) Category 3 spaces
) Category 4 spaces
1.3.4.2 Anesthesia.
It shall be the responsibility of the governing body health care facility’s governing body of the health careorganization to designate anesthetizing locations.
1.3.4.3 Wet Procedure Locations.
It shall be the responsibility of the governing body health care facility’s governing body of the health careorganization to designate wet procedure locations.
Submitter Information Verification
Submitter Full Name: Jon Hart
Organization: [ Not Specified ]
Street Address:
City:
State:
Zip:
Submittal Date: Tue Dec 15 10:06:14 EST 2015
Committee Statement
Committee Statement: This revision has been made to correct the contextual application of the global FR 113.
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First Correlating Revision No. 5-NFPA 99-2015 [ New Section after 3.3.116 ]
Submitter Information Verification
Submitter Full Name: Jon Hart
Organization: [ Not Specified ]
Street Address:
City:
State:
Zip:
Submittal Date: Thu Dec 17 09:49:21 EST 2015
Committee Statement
CommitteeStatement:
The definition for nonseparable connection has been removed because it is not used in thecode. If the code language including this language is added, then this definition can added backin.
Committee Input No. 658-NFPA 99-2015 [New Section after 3.3.116]
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First Correlating Revision No. 3-NFPA 99-2015 [ New Section after 6.3.2.2.8.4 ]
6.3.2.3.5
If the risk assessment conducted by the health care facility’s governing body, as defined in Chapter 3 ,determines that the operating room is not a wet procedure location, then the special protection of6.3.2.3 shall not be required.
Submitter Information Verification
Submitter Full Name: Jon Hart
Organization: [ Not Specified ]
Street Address:
City:
State:
Zip:
Submittal Date: Tue Dec 15 13:57:55 EST 2015
Committee Statement
CommitteeStatement:
This FCR is being made to ensure consistency throughout the document based on GlobalFR 113.
Committee Input No. 10-NFPA 99-2015 [New Section after 6.3.2.2.8.4]
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First Correlating Revision No. 4-NFPA 99-2015 [ New Section after 14.3.3.4 ]
Chapter 15 Dental Gas and Vacuum Piping Systems
15.1 Applicability.
This chapter shall apply to dental health care facilities that qualify to install dental gas and vacuumpiping systems.
15.1.1
Category 1 piped gas and piped vacuum system requirements shall be applied in dental facilities wheregeneral anesthesia and deep and moderate sedation is performed, as defined in 3.3.63.1 , 3.3.63.2 ,and 3.3.63.3 .
15.1.2
Category 2 piped gas and piped vacuum system requirements shall be applied in dental facilities whereonly minimal sedation is performed, as defined in 3.3.63.4 .
15.1.3
Category 3 piped gas and piped vacuum system requirements shall be applied in dental facilities whereno anesthesia or sedation is performed.
15.1.4
An existing system that is not in strict compliance with the requirements of this code shall be permittedto continue in use as long as the authority having jurisdiction has determined that such use does notconstitute a distinct hazard to life.
15.1.5
The following subsections shall apply to the operation, management, and maintenance of dental gasand vacuum piping systems in both new and existing dental facilities within the scope of this chapter:****LIST TO COME AT SECOND DRAFT MEETING***
15.2 Nature of Hazards of Gas and Vacuum Systems.
Potential fire and explosion hazards associated with positive-pressure dental gas systems and vacuumsystems shall be considered in the design, installation, testing, operation, and maintenance of thesesystems.
15.3 Installer Qualifications.
15.3.1
Installers of dental gas and vacuum systems shall be certified in accordance with ASSE 6010,Professional Qualification Standard for Medical Gas Systems Installers, regardless of the capacity ofthe source equipment.
15.3.2
Installers of dental gas and vacuum systems shall not use their certification to oversee installation bynoncertified personnel.
15.3.3
Brazing of dental gas and vacuum piping systems shall be performed by individuals who are qualified inaccordance with 15.10.1 .
15.3.4
Prior to any installation work involving brazing, the installer of the dental gas and vacuum pipingsystems shall provide documentation required by 15.10.1 for the qualifications of the brazingprocedures and individual brazers.
15.4 Dental Gas and Vacuum Piping Systems.
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15.4.1 General.
Dental gas and vacuum piping systems shall include medical gases, dental support gases, and dentalvacuum systems.
15.4.2 Medical Gases.
15.4.2.1
Medical gas systems in dental facilities shall include oxygen USP, nitrous oxide USP, and medical airUSP.
15.4.2.2
Oxygen and nitrous oxide shall be provided by cylinders. Medical air shall be provided by cylinders ormedical air compressors.
15.4.3 Support Gases.
15.4.3.1
Dental support gases shall include instrument air, dental compressed air, and nitrogen NF.
15.4.3.2
Instrument air and dental compressed air shall be provided by cylinders or air compressors. Nitrogenshall be provided by cylinders.
15.4.4 Vacuum Systems.
Dental vacuum systems shall include dental-surgical vacuum, dental vacuum, nitrous oxide scavenging,and waste anesthetic gas disposal (WAGD).
15.5 Dental Facilities.
15.5.1 Category 1.
15.5.1.1
Dental facilities that perform moderate sedation, deep sedation, and general anesthesia associated withimplant dentistry and oral surgery shall be considered Category 1 dental facilities.
15.5.1.2
The medical gases shall be limited to oxygen, nitrous oxide, and medical air. The dental support gasesshall be instrument air and nitrogen.
15.5.1.3
The vacuum systems shall be dental-surgical vacuum, and WAGD.
15.5.2 Category 2.
15.5.2.1
Category 2 dental facilities shall be limited to dental facilities that provide minimal sedation.
15.5.2.2
The medical gases shall be limited to oxygen and nitrous oxide.
15.5.2.3
The dental support gases shall be dental compressed air and nitrogen.
15.5.2.4
The vacuum systems shall be dental vacuum and nitrous oxide scavenging.
15.5.3 Category 3.
15.5.3.1
Category 3 dental facilities shall be dental facilities that perform no sedation.
15.5.3.2
There shall be no medical gases.
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15.5.3.3
The dental support gases shall be dental compressed air and nitrogen.
15.5.3.4
The vacuum system shall be dental vacuum.
15.5.4 Multiple Categories.
A single dental facility shall be permitted to include gas and vacuum systems for more than one type ofdental facility.
15.6 Equipment Locations for Gas and Vacuum Systems.
15.6.1 General.
15.6.1.1
Any of the following systems shall be permitted to be located together in the same room:
(1) Medical air compressor supply sources
(2) Instrument air compressor sources and reserve headers
(3) Dental-surgical vacuum sources
(4) Dental vacuum sources
(5) WAGD sources
(6) Any other compressor, vacuum pump, or electrically powered machinery
15.6.1.2
Indoor locations for oxygen, nitrous oxide, and mixtures of these gases shall not communicate with thefollowing:
(1) Areas involved in critical patient care
(2) Anesthetizing locations where moderate sedation, deep sedation, or general anesthesia isadministered
(3) Locations storing flammables
(4) Rooms containing open electrical contacts or transformers
(5) Storage tanks for flammable or combustible liquids
(6) Engines
(7) Kitchens
(8) Areas with open flames
15.6.2 Cylinders and Containers.
Cylinders and containers for gases shall be handled in accordance with Chapter 11 .
15.6.3 Ventilation.
15.6.3.1 For Indoor Locations.
Medical gas storage and transfilling room ventilation shall comply with 9.3.6 .
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15.6.3.2 For Motor-Driven Equipment.
The following source locations shall be adequately ventilated to prevent accumulation of heat:
(1) Medical air sources
(2) Instrument air sources
(3) Dental compressed air sources
(4) Dental-surgical vacuum sources
(5) Dental vacuum sources
(6) WAGD sources
15.7 Dental Gas and Vacuum Source Equipment.
15.7.1 General.
15.7.1.1
The capacity of source equipment shall be based on the design requirements for the facility, includingthe number of gas outlets, vacuum inlets, and other connections, and their individual capacities.
15.7.1.2
The system design requirements shall be included in the data used for testing and verifying theoperation of the gas and vacuum piping systems.
15.7.2 Medical Gases.
15.7.2.1 General.
15.7.2.1.1
Medical gases for dental use shall be limited to oxygen USP, nitrous oxide USP, and medical air USP.
15.7.2.1.2
The use of medical air shall be limited to human respiration and the calibration of equipment used inhuman respiration.
15.7.2.1.3
The sources of oxygen and nitrous oxide shall be high-pressure cylinders or liquid cylinders.
15.7.2.1.4
The sources of medical air shall be high pressure cylinders, liquid cylinders, or medical air compressors.
15.7.2.2 Medical Air Compressor Units.
15.7.2.2.1
Medical air compressor units shall include medical air compressors, vibration isolation, air receivers, airfilters, line pressure regulators, pressure relief valves, air dryers, dew point and CO monitors,single-point air connections, electrical disconnects, motor wiring, and controls. The air compressorsshall be simplex, multiplex, load/unload, or variable speed.
15.7.2.2.2
Medical air compressors shall be oil-less reciprocating, oil-free rotary tooth, or scroll type.
15.7.2.2.3
Medical air compressor units shall meet the requirements of 5.2.3.5 .
15.7.3 Instrument Air.
15.7.3.1 General.
15.7.3.1.1
Instrument air shall be used as a support gas for driving surgical tools. It shall also be permitted to drivedental tools and air-driven equipment.
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15.7.3.1.2
Instrument air outlets shall not be interchangeable with any other gas outlets, including medical air,dental compressed air, and nitrogen.
15.7.3.1.3
The primary source of instrument air shall be an instrument air compressor. Where a secondary sourceis provided, it shall be another instrument air compressor or medical air cylinders.
15.7.3.2 Instrument Air Compressor Units.
15.7.3.2.1
Instrument air compressor systems shall include air compressors, vibration isolation, air receivers,coalescing filters for oil removal, activated carbon absorbers for vapor and gaseous oil, air filters, linepressure regulators, pressure relief valves, air dryers, dew point and CO monitors, single-point airconnections, electrical disconnects, motor wiring, and controls. The air compressors shall be simplex,multiplex, load/unload, or variable speed.
15.7.3.2.2
Instrument air compressors shall be oil-lubricated, oil-less, or oil-free, with a discharge pressure not lessthan 1380 kPa (200 psi).
15.7.3.2.3
Instrument air compressor units shall comply with 5.1.13.3.5 .
15.7.3.2.4
The quality of the instrument air shall be as follows:
(1) Compliant with ANSI/ISA S-7.0.01, Quality Standard for Instrument Air
(2) Filtered to 0.01 micron
(3) Free of liquids (e.g., water, hydrocarbons, and solvents)
(4) Free of hydrocarbon vapors
(5) Dry to a dew point of −40°C (−40°F)
15.7.4 Dental-Surgical Vacuum.
15.7.4.1 General.
15.7.4.1.1
Dental-surgical vacuum systems shall provide patient suction for implant dentistry, oral surgery, andWAGD.
15.7.4.1.2
Dental-surgical inlets shall not be interchangeable with any other vacuum inlets, including dentalvacuum and WAGD.
15.7.4.2 Dental-Surgical Vacuum Pump Units.
15.7.4.2.1
Dental-surgical vacuum units shall include vacuum pumps, vibration isolation, separation tanks,nonreturn valve, vacuum inlet, vacuum exhaust, condensate drain, motor wiring, and controls.
15.7.4.2.2
Dental-surgical vacuum pumps shall be lubricated rotary vane, dry rotary vane, or the contactless clawtype. The pumps shall be suitable for dual use with WAGD.
15.7.4.2.3
Dental-surgical vacuum systems shall comply with 5.1.3.7 .
15.7.5 Waste Anesthetic Gas Disposal (WAGD).
15.7.5.1 General.
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15.7.5.1.1
WAGD shall be provided wherever the dental treatment involves general anesthesia or deep ormoderate sedation. General anesthesia or deep or moderate sedation shall not be performed usinginlets for nitrous oxide scavenging.
15.7.5.1.2
WAGD shall be connected to the dental-surgical vacuum system as a dual-use high-volumeWAGD/dental-surgical vacuum.
15.7.5.1.3
Mixed-system piping for WAGD and dental-surgical vacuum shall be joined at the inlets, in thedistribution piping, or at the source equipment and the piping sized accordingly.
15.7.5.1.4
WAGD inlets shall not be interchangeable with any other vacuum inlets, including dental-surgicalvacuum, dental vacuum, and nitrous oxide scavenging.
15.7.5.1.5
WAGD pump units shall comply with 5.1.3.8 .
15.7.6 Dental Compressed Air.
15.7.6.1 General.
15.7.6.1.1
Dental compressed air shall be used as a support gas for driving dental tools and shall be permitted tobe used to supply air-driven equipment. Dental compressed air shall not be used for respiration.
15.7.6.1.2
Dental compressed air outlets shall not be interchangeable with any other gas outlets, including oxygen,nitrous oxide, medical air, instrument air, and nitrogen.
15.7.6.2 Dental Air Compressor Units.
15.7.6.2.1
Dental air compressor units shall include dental air compressors, vibration isolation, air receivers,coalescent air filters, adsorption dryers, exhaust silencer/filters, moisture indicators, and service accessmanifolds, electrical disconnects, motor wiring, and controls.
15.7.6.2.2
Air compressors shall be scroll dental, reciprocating dental, or the oil-free dental types.
15.7.7 Dental Vacuum.
15.7.7.1 General.
15.7.7.1.1
Dental vacuum shall be used for oral evacuation and nitrous oxide scavenging.
15.7.7.1.2
Dental vacuum inlets shall not be interchangeable with any other vacuum inlets, including dental-surgical vacuum.
15.7.7.2 Dental Vacuum Units.
15.7.7.2.1
Dental vacuum units shall include dental vacuum pumps, vibration isolation, separation tanks, vacuuminlet, vacuum exhaust, condensate drain, motor wiring, and controls.
15.7.7.2.2
Dental vacuum pumps shall be dental dry vacuum or dental liquid (wet) ring pumps. Pumps shall beoil-free or oil-lubricated, and suitable for nitrous oxide scavenging.
15.7.8 Nitrous Oxide Scavenging.
15.7.8.1 General.
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15.7.8.1.1
The use of scavenging shall be limited to portions of dental facilities where minimal sedation isadministered. WAGD shall be provided where the dental treatment involves general anesthesia or deepor moderate sedation.
15.7.8.1.2
Active nitrous oxide scavenging shall include the use of a nasal mask on the patient. The nasal maskshall be connected to a scavenging inlet in the dental vacuum system through a flow-limiting adapter.
15.7.8.1.3
Nitrous oxide scavenging inlets shall not be interchangeable with any other vacuum inlets, includingdental-surgical vacuum, dental vacuum, and WAGD.
15.7.8.2 Connection to Dental Vacuum.
Scavenging connections to the dental vacuum system shall be a direct high-volume evacuation (HVE)connection to a high-volume vacuum port with a capacity of 45 L/min (1.6 cfm).
15.8 Piping for Gas and Vacuum Systems.
15.8.1 General.
15.8.1.1
Piping for the following systems shall comply with 15.8.2 :
(1) Oxygen
(2) Nitrous oxide
(3) Medical air
(4) Instrument air
(5) Dental-surgical vacuum
(6) WAGD
15.8.1.2
Piping for dental compressed air systems shall comply with 15.8.3 .
15.8.1.3
Piping for dental vacuum systems and scavenging systems shall comply with 15.8.4 .
15.8.1.4
Piping for nitrogen systems shall comply with 15.8.5 .
15.8.2 Piping for Oxygen, Nitrous Oxide, Medical Air, Instrument Air, Dental-Surgical Vacuum, andWAGD Systems.
15.8.2.1 Cleaning for Oxygen Service.
For oxygen, nitrous oxide, medical air, and instrument air, the pipe, fittings, valves, gas/vacuumoutlets/inlets, and other piping components shall be cleaned for oxygen by the manufacturer prior toinstallation in accordance with CGA G-4.1, Cleaning Equipment for Oxygen Service . Fittings shall bepermitted to be cleaned by a supplier or agency other than the manufacturer.
15.8.2.2 Pipe.
Pipe shall be hard-drawn seamless copper tube conforming to ASTM B819, Standard Specification forSeamless Copper Tube for Medical Gas Systems , Type L or K.
15.8.2.3 Fittings.
15.8.2.3.1
Fittings shall be brazed, memory metal, or axially swaged.
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15.8.2.3.2
Brazed fittings shall be the wrought copper capillary type complying with the following:
(1) ASME B16.22, Wrought Copper and Copper Alloy Solder-Joint Pressure Fittings
(2) ANSI/ASME B16.50, Wrought Copper and Copper Alloy Braze-Joint Pressure Fittings
(3) ASME B16.22 with socket depths equal to or greater than brazed joint pressure fittings inaccordance with ANSI/ASME B16.50
15.8.2.3.3
Cast copper alloy fittings shall not be used with field-brazed joints.
15.8.2.3.4
Memory metal fittings shall be rated for not less than 538°C (1000°F) and 2070 kPa (300 psi), and shallbe installed by qualified technicians in accordance with the manufacturer's instructions.
15.8.2.3.5
Axially swaged couplings shall be elastic strain preloaded with metal-to-metal seats, rated for not lessthan 538°C (1000°F) and 2070 kPa (300 psi), and shall provide permanent, nonseparable joints. Fittingsshall be installed by qualified technicians in accordance with the manufacturer's instructions.
15.8.2.4 Joints.
15.8.2.4.1 Brazed.
Brazing of copper joints shall be in accordance with Section 15.10 .
15.8.2.4.2 Threaded.
Threaded joints shall be limited to connections to pressure indicators, alarm devices, and sourceequipment and shall comply with the following:
(1) Threads shall be tapered complying with ASME B1.20.1, Pipe Threads, General Purpose, Inch.
(2) Threads shall be made up with polytetrafluoroethylene (PTFE) tape or other thread sealantrecommended for oxygen service, with the sealant applied to the male threads only.
15.8.2.4.3 Prohibited Joints.
The following joints shall be prohibited under 15.8.2.4 :
(1) Flared and compression connections, including connections to station outlets, alarm devices, andother components
(2) Push-lock connections
(3) Straight-threaded connections, including unions
(4) Pipe crimping tools used to permanently stop the flow of medical gas and vacuum piping
15.8.3 Piping for Dental Compressed Air Systems.
15.8.3.1 General.
Pipe, fittings, and joints in piping for dental compressed air systems shall be in accordance with15.8.3.2 through 15.8.3.4 .
15.8.3.2 Pipe.
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Pipe under 15.8.3 shall comply with the following:
(1) ASTM B819, Standard Specification for Seamless Copper Tube for Medical Gas Systems , TypeL or K.
(2) ASTM B88, Standard Specification for Seamless Copper Water Tube , Type L or K
(3) ASTM B280, Standard Specification for Seamless Copper Tubing for Air Conditioning andRefrigeration Field Service , ACR tube (O.D. size)
15.8.3.2.1
Copper tube shall be hard temper or annealed (soft temper).
15.8.3.3 Fittings.
Fittings for piping under 15.8.3 shall be permitted to be any of the following acceptable joiningmethods:
(1) Brazed or soldered fittings conforming to ASME B16.22, Wrought Copper and Copper AlloySolder-Joint Pressure Fittings
(2) Brazed fittings conforming to ANSI/ASME B16.50, Wrought Copper and Copper AlloyBraze-Joint Pressure Fittings
(3) Brazed fittings conforming to ASME B16.22 with socket depths equal to or greater than braze-jointpressure fittings in compliance with ANSI/ASME B16.50
(4) Flared fittings conforming to ASME B16.26, Cast Copper Alloy Fittings for Flared Copper Tubes
(5) Compression fittings ( 3 ⁄4 in. maximum size)
15.8.3.4 Joints.
Joints for piping under 15.8.3 shall comply with 15.8.3.4.1 through 15.8.3.4.3 .
15.8.3.4.1
Joints shall be brazed, soldered, threaded, flared, or the compression type.
15.8.3.4.2
Where joints are brazed, they shall comply with the requirements of Section 15.10 .
15.8.3.4.3
Soldered joints shall be made in accordance with ASTM B828, Standard Practice for Making CapillaryJoints by Soldering of Copper and Copper Alloy Tube and Fittings , using a “lead-free” solder filler metalcontaining not more than 0.2 percent lead by volume that complies with ASTM B32, StandardSpecification for Solder Metal .
15.8.4 Piping for Dental Vacuum Systems and Scavenging Systems.
15.8.4.1 General.
Piping for dental vacuum systems and scavenging systems shall be copper, PVC plastic, or CPVCplastic.
15.8.4.2 Copper Piping.
Copper piping under 15.8.4 shall be in accordance with 15.8.4.2.1 through 15.8.4.2.3
15.8.4.2.1 Copper Tube.
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Copper tubing shall comply with the following:
(1) ASTM B819, Standard Specification for Seamless Copper Tube for Medical Gas Systems , TypeL or K
(2) ASTM B88, Standard Specification for Seamless Copper Water Tube , Type L or K
(3) ASTM B280, Standard Specification for Seamless Copper Tubing for Air Conditioning andRefrigeration Field Service , ACR tube (O.D. size)
15.8.4.2.1.1
Copper tube shall be hard temper or annealed (soft temper).
15.8.4.2.2 Copper Fittings.
Copper fittings shall comply with the following:
(1) Brazed or soldered fittings conforming to ASME B16.22, Wrought Copper and Copper AlloySolder-Joint Pressure Fittings
(2) Brazed fittings conforming to ANSI/ASME B16.50, Wrought Copper and Copper AlloyBraze-Joint Pressure Fittings
(3) Brazed fittings conforming to ASME B16.22 with socket depths equal to or greater than braze-jointpressure fittings conforming to ANSI/ASME B16.50
(4) Flared fittings conforming to ASME B16.26, Cast Copper Alloy Fittings for Flared Copper Tubes
(5) Compression fittings ( 3 ⁄4 in. maximum size)
15.8.4.2.3 Joints for Copper Piping.
Joints in copper tubing shall be in accordance with 15.8.4.2.3(1) through 15.8.4.2.3(3) .
(1) Joints shall be brazed, soldered, threaded, flared, or the compression type.
(2) Where joints are brazed, they shall comply with the requirements of 15.10 .
(3) Soldered joints shall be made in accordance with ASTM B828, Standard Practice for MakingCapillary Joints by Soldering of Copper and Copper Alloy Tube and Fittings , using a “lead-free”solder filler metal containing not more than 0.2 percent lead by volume that complies with ASTMB32, Standard Specification for Solder Metal .
15.8.4.3 PVC Plastic Piping.
PVC plastic piping under 15.8.4 shall be in accordance with 15.8.4.3(1) through 15.8.4.3(3) .
(1) PVC plastic pipe shall be Schedule 40 or Schedule 80, conforming to ASTM D1785, StandardSpecification for Poly (Vinyl Chloride) (PVC) Plastic Pipe, Schedules 40, 80, and 120 .
(2) PVC plastic fittings shall be Schedule 40 or Schedule 80 to match the pipe, conforming to ASTMD2466, Standard Specification for Poly (Vinyl Chloride) (PVC) Plastic Pipe Fittings, Schedule40 , or ASTM D2467, Standard Specification Poly (Vinyl Chloride) (PVC) Plastic Pipe Fittings,Schedule 80.
(3) Joints in PVC plastic piping shall be solvent-cemented in accordance with ASTM D2672,Standard Specification for Joints for IPS PVC Pipe Using Solvent Cement .
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15.8.4.4 CPVC Plastic Piping.
CPVC plastic piping under 15.8.4 shall be in accordance with 15.8.4.4(1) through 15.8.4.4(4) .
(1) CPVC IPS plastic pipe shall be Schedule 40 or Schedule 80, conforming to ASTM F441/F441M,Standard Specification for Chlorinated Poly (Vinyl Chloride) (CPVC) Plastic Pipe, Schedules 40and 80 .
(2) CPVC IPS plastic fittings shall be Schedule 40 or Schedule 80 to match the pipe, conforming toASTM F438, Standard Specification for Socket-Type Chlorinated Poly (Vinyl Chlorinated)(CPVC) Plastic Pipe Fittings, Schedule 40 , or ASTM F439, Standard Specification forChlorinated Poly (Vinyl Chlorinated) (CPVC) Plastic Pipe Fittings, Schedule 80 .
(3) CPVC CTS plastic pipe and fittings 1 ⁄2 in. through 2 in. size shall be SDR 11, conforming toASTM D2846/D2846M, Standard Specification for Chlorinated Poly (Vinyl Chloride) (CPVC)Plastic Hot- and Cold-Water Distribution Systems .
(4) Solvent cement for joints in CPVC plastic piping shall comply with ASTM F493, Solvent Cementsfor CPVC Pipe and Fittings .
15.8.5 Piping for Nitrogen.
15.8.5.1 Category 1 Facilities.
Nitrogen piping in Category 1 dental facilities shall comply with 15.8.2 , including cleaning for oxygenservice.
15.8.5.2 Category 2 Facilities.
Nitrogen piping in Category 2 dental facilities shall comply with 15.8.3 .
15.9 Installation of Gas and Vacuum Piping.
15.9.1 General.
15.9.1.1
Gas and vacuum piping systems shall be as listed in Section 15.4 .
15.9.1.2
Piping materials shall be as listed in Section 15.8 .
15.9.2 Pipe Sizing.
Piping systems shall be designed and sized to deliver the required flow rates at the utilization pressures.
15.9.3 Minimum Pipe Sizes.
The minimum size of the following piping shall be as follows:
(1) Category 1 medical gas and support gases shall not be less than (NPS 1 ⁄2 in.) ( 5 ⁄8 in. O.D.)size.
(2) Category 1 dental-surgical vacuum and WAGD shall not be less than (NPS 3 ⁄4 in.) ( 7 ⁄8 in. O.D.)size.
(3) Category 2 oxygen piping shall be not less than DN10 (NPS 3 ⁄8 in.) ( 1 ⁄2 in. O.D.) size.
(4) Category 2 nitrous oxide piping shall be not less than DN8 (NPS 1 ⁄4 in.) ( 3 ⁄8 in. O.D.) size.
15.9.4 Location of Piping.
Piping shall not be located where subject to contact with oil.
15.9.5 Protection of Piping.
15.9.5.1
Piping shall be protected against freezing, corrosion, and physical damage.
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15.9.5.2
Piping exposed in corridors and other locations where subject to physical damage from the movementof equipment shall be protected.
15.9.6 Pipe Support.
15.9.6.1
Piping shall be supported from the building structure.
15.9.6.2
Hangers and supports shall comply with and be installed in accordance with MSS SP-58, Pipe Hangersand Supports — Materials, Design, Manufacture, Selection, Application, and Installation .
15.9.6.3
Hangers and supports shall be sized for the tube or pipe being supported.
15.9.6.4
In potentially damp locations, copper tube hangers and supports that are in contact with the tube shallbe plastic-coated or otherwise electrically insulated from the tube.
15.9.6.5
The maximum support spacing for copper tube shall be in accordance with Table 15.9.6.5 .
Table 15.9.6.5 Maximum Copper Tube Support Spacing
Hanger Spacing
Pipe Size mm ft
DN8 (NPS 1 ⁄4 ) ( 3 ⁄8 in. O.D.) 1520 5
DN10 (NPS 3 ⁄8 ) ( 1 ⁄2 in. O.D.) 1830 6
DN15 (NPS 1 ⁄2 ) ( 5 ⁄8 in. O.D.) 1830 6
DN20 (NPS 3 ⁄4 ) ( 7 ⁄8 in. O.D.) 2130 7
DN25 (NPS 1) (1 1 ⁄8 in. O.D.) 2440 8
DN32 (NPS 1 1 ⁄4 ) (1 3 ⁄8 in. O.D.) 2740 9
DN40 (NPS 1 1 ⁄2 ) (1 5 ⁄8 in. O.D.) and larger 3050 10
Vertical risers, all sizes, every floor, but not toexceed 4570 15
15.9.6.6
The maximum support spacing for plastic pipe shall be in accordance with Table 15.9.6.6 .
Table 15.9.6.6 Maximum Plastic Pipe Support Spacing
Hanger Spacing
Pipe Size mm ft
DN15 (NPS 1 ⁄2 ) ( 5 ⁄8 in. O.D.) 1220 4
DN20 (NPS 3 ⁄4 ) ( 7 ⁄8 in. O.D.) 1220 4
DN25 (NPS 1) (1 1 ⁄8 in. O.D.) 1320 4.33
DN32 (NPS 1 1 ⁄4 ) (1 3 ⁄8 in. O.D.) 1320 4.33
DN40 (NPS 1 1 ⁄2 ) (1 5 ⁄8 in. O.D.) 1420 4.66
DN50 (NPS 2) (2 3 ⁄8 in. O.D.) 1420 4.66
DN65 (NPS 2 1 ⁄2 ) (2 7 ⁄8 in. O.D.) and larger 1520 5
Vertical risers, all sizes, every floor, but not toexceed 3040 10
15.9.7 Underground Piping Outside of Buildings.
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15.9.7.1
Buried piping outside of buildings shall be installed below the local level of frost penetration.
15.9.7.2
The installation procedure for underground piping shall prevent physical damage to the piping whilebeing backfilled.
15.9.7.3
If the underground piping is protected by a conduit, cover, or other enclosure, the following requirementsshall be met:
(1) Access during construction shall be provided at the joints for visual inspection and leak testing.
(2) The conduit, cover, or enclosure shall be self-draining and not retain groundwater in prolongedcontact with copper tubing.
15.9.7.4
Buried piping that is subject to surface loads shall be buried at a depth that will protect the piping, itsenclosure, or both, from excessive stresses.
15.9.7.5
The minimum backfill cover above the top of the piping or its enclosure shall be 900 mm (36 in.), exceptthat the minimum cover shall be permitted to be reduced to 450 mm (18 in.) where there is no potentialfor damage from surface loads or surface conditions.
15.9.7.6
Trenches shall be excavated so that the piping or its enclosure has firm, substantially continuousbearing on the bottom of the trench.
15.9.7.7
Backfill shall be clean, free from material that can damage the pipe, and compacted.
15.9.7.8
A continuous warning tape or marker shall be placed immediately above the piping or its enclosure toclearly identify the pipeline by specific name.
15.9.7.9
A continuous warning means shall also be placed above the pipeline at approximately one-half thedepth of burial.
15.9.7.10
Where buried piping is extended into a building through a wall sleeve, the outdoor end of the sleeveshall be sealed watertight to prevent the entrance of groundwater into the building.
15.9.8 Underground Piping Within Buildings.
15.9.8.1
The installation procedure for underground piping shall prevent physical damage to the piping whilebeing backfilled.
15.9.8.2
If the underground piping is protected by a conduit, cover, or other enclosure, access shall be providedat the joints during construction for visual inspection and leak testing.
15.9.8.3
The piping shall be backfilled with clean sand or gravel.
15.9.9 Piping Within Floor Slabs Prohibited.
Dental gas and vacuum piping shall not be installed within floor slabs.
15.9.10 Hose and Flexible Connectors.
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15.9.10.1
Hose and flexible connectors, both metallic and nonmetallic, shall be no longer than necessary and shallnot penetrate or be concealed in walls, floors, ceilings, or partitions.
15.9.10.2
Hose and flexible connectors, metallic or nonmetallic, shall have a minimum burst gauge pressure of6895 kPa (1000 psi).
15.9.10.3
Medical gas hose and flexible connectors shall be oxygen compatible.
15.9.10.4
Hose and flexible connectors shall be clearly identified as to the gas content.
15.9.10.5
Hose and flexible connectors for dental medical gases shall be gas-specific and not be permitted toconduct any other gas, gas mixture, or liquid.
15.9.11 Gas/Vacuum Outlets/Inlets.
15.9.11.1
Each gas/vacuum outlet/inlet shall be gas-specific.
15.9.11.2
Gas outlets shall consist of a primary and a secondary valve or assembly.
15.9.11.3
Vacuum inlets shall consist of a primary valve or assembly and shall be permitted to include asecondary valve or assembly.
15.9.11.4
Each gas outlet/inlet shall be legibly identified.
15.9.11.5
Threaded outlets/inlets shall be noninterchangeable connections complying with the mandatoryrequirements of CGA V-5, Diameter-Index Safety System (Noninterchangeable Low PressureConnections for Medical Gas Applications) .
15.9.11.6
Factory-installed copper inlet tubes on station outlets extending no further than 205 mm (8 in.) from thebody of the terminal shall be not less than DN8 (NPS 1 ⁄4 ) ( 3 ⁄8 in. O.D.) size, with 8 mm (0.3 in.)minimum inside diameter.
15.9.11.7
Factory-installed copper outlet tubes on station inlets extending no further than 205 mm (8 in.) from thebody of the terminal shall be not less than DN10 (NPS 3 ⁄8 ) ( 1 ⁄2 in. O.D.) size, with 10 mm (0.4 in.)minimum inside diameter.
15.9.12 Piped Outlets for Connection to Gas Dispensing Devices.
15.9.12.1
Piped outlets for connection to dental medical gas dispensing devices shall be gas-specific.
15.9.12.2
Piped outlets shall include a check valve and be capped until connected to the gas dispensing device.
15.9.12.3
Where piped outlets are connected to gas dispensing devices by flexible tubing, the tubing shall have aminimum burst gauge pressure of 6895 kPa (1000 psi) and be rated for oxygen use.
15.9.12.4
All connections between piped outlets and gas dispensing devices shall be gas-specific to preventcross-connections.
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15.9.13 Emergency Shutoff Valves.
15.9.13.1
Where a central dental medical gas supply is remote from a single treatment facility, the main supply lineshall be provided with an emergency shutoff valve located in the single treatment facility so as to beaccessible from all use-point locations in an emergency.
15.9.13.2
Where a central dental medical gas supply system supplies two treatment facilities, each facility shall beprovided with an emergency shutoff valve located in that treatment facility so as to be accessible from alluse-point locations in an emergency.
15.9.13.3
Emergency shutoff valves shall be labeled to indicate the gas controlled by the shutoff valve and shallshut off only the gas to the treatment facility that they serve.
15.9.13.4
A remotely activated shutoff valve at a gas supply manifold shall not be used for emergency shutoff.
15.9.13.4.1
For clinical purposes, such a remote valve actuator shall not fail-close in the event of loss of electricpower.
15.9.13.4.2
Where remote actuators are the type that fail-open, it shall be mandatory that cylinder shutoff valves beclosed whenever the system is not in use.
15.10 Brazing Copper Tubing.
15.10.1 Qualification of Brazing Procedures and Brazers.
15.10.1.1
Brazing procedures and brazer performance for the installation of dental piping shall be in accordancewith either Section IX, “Welding and Brazing Qualifications,” of the ASME Boiler and Pressure VesselCode , or AWS B2.2/B2.2M, Standard for Brazing Procedure and Performance Qualification , both asmodified by 15.10 .
15.10.1.2
Brazers shall be qualified by visual examination of the test coupons followed by sectioning.
15.10.1.3
The brazing procedure specification shall address cleaning, joint clearance, overlap, internal purge gas,purge gas flow rate, and filler metal.
15.10.1.4
The brazing procedure qualification record and the record of brazer performance qualification shalldocument the filler metal used, cleaning, joint clearance, overlap, internal purge gas and flow rate duringbrazing of the coupon, and the absence of internal oxidation in the completed coupon.
15.10.1.5
Brazing procedures qualified by a technically competent group or agency shall be permitted under thefollowing conditions:
(1) The brazing procedure specification and the procedure qualification record meet the requirementsof this code.
(2) The employer obtains a copy of both the brazing procedure specification and the supportingqualification record from the group or agency and signs and dates these records, therebyaccepting responsibility for the qualifications that were performed by the group or agency.
(3) The employer qualifies at least one brazer following each brazing procedure specification used.
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15.10.1.6
An employer shall be permitted to accept brazer qualification records of a previous employer under thefollowing conditions:
(1) The brazer has been qualified following the same procedure that the new employer uses, or anequivalent procedure.
(2) The new employer obtains a copy of the record of brazer performance qualification tests from theprevious employer and signs and dates these records, thereby accepting responsibility for thequalifications performed by the previous employer.
15.10.1.7
Performance qualifications of brazers shall remain in effect indefinitely, unless the brazer does not brazewith the qualified procedure for a period exceeding 6 months or there is a specific reason to questionthe ability of the brazer.
15.10.2 Brazed Joints.
15.10.2.1
Brazed tube joints shall be of the socket type.
15.10.2.2
Brazed joints shall be made using a brazing alloy that exhibits a melting temperature in excess of 538°C(1000°F) to retain the integrity of the piping system in the event of fire exposure.
15.10.2.3
Filler metals shall bond with and be metallurgically compatible with the base metal being joined.
15.10.2.4
Filler metals shall comply with ANSI/AWS A5.8M/A5.8, Specification for Filler Metals for Brazing andBraze Welding .
15.10.2.5
Copper-to-copper joints shall be brazed using a copper-phosphorus or copper-phosphorus-silverbrazing filler metal (i.e., BCuP series) without flux.
15.10.2.6
Joints to be brazed in place shall be accessible for necessary preparation, assembly, heating, fillerapplication, cooling, cleaning, and inspection.
15.10.3 Cutting Tube Ends.
15.10.3.1
Tube ends shall be cut square using a sharp tubing cutter to avoid deforming the tube.
15.10.3.2
The cutting wheels on tubing cutters shall be free from grease, oil, or other lubricants not recommendedfor oxygen service.
15.10.3.3
The cut ends of the tube shall be rolled smooth or deburred with a sharp, clean deburring tool, takingcare to prevent chips from entering the tube.
15.10.4 Cleaning Joints for Brazing.
15.10.4.1
The interior surfaces of tubes, fittings, and other components that are cleaned for oxygen service shallbe stored and handled to avoid contamination prior to assembly and brazing.
15.10.4.2
The exterior surfaces of tube ends shall be cleaned prior to brazing to remove any oxides and surfacedirt and to roughen the surfaces to prepare them for brazing.
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15.10.4.3
Nonabrasive pads shall be used to clean the exterior surfaces of tube ends.
15.10.4.4
The use of steel wool, sand cloth, or wire brushes shall be prohibited.
15.10.4.5
The cleaning process shall not result in grooving the surfaces to be joined.
15.10.4.6
After being abraded, the surfaces shall be wiped using a clean, lint-free white cloth.
15.10.4.7
Tubes, fittings, valves, and other components shall be visually examined internally before being joinedto verify that they have not become contaminated for oxygen service and that they are free ofobstructions or debris.
15.10.4.8
Material that has become contaminated internally and is not clean for oxygen service shall not beinstalled.
15.10.4.9
Joints shall be brazed within 8 hours after being cleaned for brazing.
15.10.5 Brazing Dissimilar Metals.
15.10.5.1
Flux shall only be used when brazing dissimilar metals, such as copper and bronze or brass, using asilver brazing filler metal (i.e., BAg series).
15.10.5.2
Cast metals shall not be field brazed.
15.10.5.3
Surfaces shall be cleaned for brazing in accordance with 15.10.4 .
15.10.5.4
Flux shall be applied sparingly to minimize contamination of the inside of the tube with flux.
15.10.5.5
The flux shall be applied and worked over the cleaned surfaces to be brazed using a stiff bristle brush toensure complete coverage and wetting of the surfaces with flux.
15.10.5.6
Where possible, short sections of copper tube shall be brazed onto the noncopper component, and theinterior of the subassembly shall be cleaned of flux prior to installation in the piping system.
15.10.5.7
On joints DN20 (NPS 3 ⁄4 ) ( 7 ⁄8 in. O.D.) size and smaller, flux-coated brazing rods shall be permittedto be used in lieu of applying flux to the surfaces to be joined.
15.10.6 Nitrogen Purge.
15.10.6.1
While being brazed, joints shall be continuously purged with oil-free, dry nitrogen NF to prevent theformation of copper oxide on the inside surface of the joint.
15.10.6.2
The source of the nitrogen purge gas shall be monitored, and the installer shall be audibly alerted whenthe content is low.
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15.10.6.3
The nitrogen purge gas flow rate shall not be high enough to produce a positive pressure in the pipingsystem.
15.10.6.4
The nitrogen purge gas flow shall be controlled by the use of both a pressure regulator and a flowmeter,or a combination thereof.
15.10.6.5
Pressure regulators alone shall not be used to control nitrogen purge gas flow rates.
15.10.6.6
During and after installation, openings in the piping system shall be kept capped or plugged to maintaina nitrogen atmosphere within the piping and to prevent debris or other contaminants from entering thesystem.
15.10.6.7
While a joint is being brazed, a discharge opening shall be provided on the opposite side of the jointfrom where the nitrogen purge gas is being introduced.
15.10.6.8
The flow of nitrogen purge gas shall be maintained until the joint is cool to the touch.
15.10.6.9
After the joint has cooled, the purge discharge opening shall be plugged or capped to preventcontamination of the inside of the tube and maintain the nitrogen atmosphere within the piping system.
15.10.7 Assembling and Heating Brazed Joints.
15.10.7.1
Tube ends shall be inserted either fully into the depth of the fitting socket or to a mechanically limiteddepth that is not less than the minimum cup depth (i.e., overlap) specified in ANSI/ASME B16.50,Standard Specification for Wrought Copper and Copper Alloy Braze-Joint Pressure Fittings.
15.10.7.2
Where flux is permitted, joints shall be heated slowly until the flux has liquefied.
15.10.7.3
After flux has liquefied, or where flux is not permitted to be used, the joint shall be heated quickly to thebrazing temperature, taking care not to overheat the joint.
15.10.7.4
Techniques for heating joints, applying the brazing filler metal, and making the horizontal, vertical, andlarge-diameter joints shall be as described in sections on applying heat and brazing horizontal andvertical joints in Chapter VIII, “Brazed Joints,” in the CDA Copper Tube Handbook .
15.10.8 Inspection of Brazed Joints.
15.10.8.1
After brazing, the outside of all joints shall be cleaned by washing with water and a wire brush to removeany residue and allow clear visual inspection of the joint.
15.10.8.2
Where flux has been used, the wash water shall be hot.
15.10.8.3
Each joint shall be visually inspected after cleaning the outside surfaces.
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15.10.8.4
Joints exhibiting the following conditions shall not be permitted:
(1) Flux or flux residue (where flux or flux-coated BAg rods are used with dissimilar metals)
(2) Base metal melting or erosion
(3) Unmelted filler metal
(4) Failure of the filler metal to be clearly visible all the way around the joint at the interface betweenthe socket and the tube
(5) Cracks in the tube or component
(6) Cracks in the filler metal
(7) Failure of the joint to hold the test pressure under the installer-performed initial pressure test ( see15.12.4.5 ) and standing pressure test ( see 15.12.4.7 )
15.10.8.5
Joints that are identified as defective under conditions specified in 15.10.8.4(2) or 15.10.8.4(5) shallbe replaced.
15.10.8.6
Joints that are found to be defective under conditions specified in 15.10.8.4(1) , 15.10.8.4(3) ,15.10.8.4(4) , 15.10.8.4(6) , or 15.10.8.4(7) shall be permitted to be repaired, except that no jointshall be reheated more than once before being replaced.
15.11 Warning Systems.
15.11.1 General.
Warning systems for Category 1, Category 2, and Category 3 dental facilities shall comply with 15.11 .
15.11.2 Category 1 Warning Systems.
15.11.2.1
The warning systems in Category 1 dental facilities shall comply with the applicable requirements of5.1.9 and as indicated in 15.11.2.2 through 15.11.2.4 .
15.11.2.2 Master Alarm Panels.
15.11.2.2.1
A master alarm panel shall be located in the facility at a point of continuous surveillance when the facilityis in operation.
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15.11.2.2.2
The master alarm panel shall indicate the following:
(1) Oxygen supply pressure ±20 percent from normal
(2) Nitrous oxide supply pressure ±20 percent from normal
(3) Medical air supply pressure ±20 percent from normal
(4) Nitrogen supply pressure ±20 percent from normal
(5) Instrument air pressure ±20 percent from normal
(6) Changeover of oxygen supply source
(7) Changeover of nitrous oxide supply source
(8) Changeover of medical air supply source
(9) Changeover of nitrogen supply source
(10) Changeover of instrument air source
(11) Individual gas cylinder reserves less than one day's supply
(12) Dental-surgical vacuum at or below 300 mm (12 in.) gauge HgV
(13) Medical air dew point >2°C (35°F)
(14) Instrument air dew point > −30°C (−22°F)
(15) WAGD low alarm
(16) Local alarm panel with one or more alarms
15.11.2.3 Area Alarm Panels.
15.11.2.3.1
An area alarm panel shall be centrally located where two or more treatment areas are supplied by thesame zoned dental gas and vacuum piping.
15.11.2.3.2
Area alarm panels shall indicate the following:
(1) Oxygen supply pressure ±20 percent from normal
(2) Nitrous oxide supply pressure ±20 percent from normal
(3) Medical air supply pressure ±20 percent from normal
(4) Nitrogen supply pressure ±20 percent from normal
(5) Instrument air pressure ±20 percent from normal
(6) Dental-surgical vacuum at or below 300 mm (12 in.) gauge HgV
(7) WAGD low alarm
15.11.2.4 Local Alarms.
15.11.2.4.1
Local alarms shall be located in source equipment control panels or separate control panels in theequipment rooms for source equipment.
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15.11.2.4.2
Local alarms shall include the following:
(1) Medical air backup or lag compressor in operation
(2) Instrument air backup or lag compressor in operation
(3) Dental-surgical backup or lag vacuum pump in operation
(4) Medical air carbon monoxide 10 ppm or higher
(5) Medical air dew point >2°C (35°F)
(6) Instrument air dew point > −30°C (−22°F)
(7) Liquid ring air compressor high receiver water level
(8) Liquid ring air compressor high separator water
(9) Water-cooled compressor high receiver water level
(10) Nonwater air compressor high discharge air temperature
(11) Lag WAGD producer in use
15.11.3 Category 2 Warning Systems.
15.11.3.1 General.
15.11.3.1.1
The warning systems in Category 2 dental facilities shall comply with applicable requirements of 5.2.9and 15.11.3.2 through 15.11.3.4 .
15.11.3.1.2
The master, area, and local alarm functions shall be permitted to be provided by a single alarm panel,as indicated in 5.2.9 .
15.11.3.2 Master Alarm Panels.
15.11.3.2.1
A master alarm panel shall be located in the facility at a point of continuous surveillance when the facilityis in operation.
15.11.3.2.2
The master alarm panel shall indicate the following:
(1) Oxygen supply pressure ±20 percent from normal
(2) Nitrous oxide supply pressure ±20 percent from normal
(3) Nitrogen supply pressure ±20 percent from normal
(4) Dental compressed air pressure ±20 percent from normal
(5) Changeover of oxygen supply source
(6) Changeover of nitrous oxide supply source
(7) Changeover of nitrogen supply source
(8) Changeover of dental compressed air source
(9) Individual gas cylinder reserves less than one day's supply
(10) Dental vacuum at or below 300 mm (12 in.) gauge HgV
(11) A local alarm panel with one or more alarms
15.11.3.3 Area Alarm Panels.
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15.11.3.3.1
An area alarm panel shall be centrally located where two or more treatment areas are supplied from thesame zoned dental gas and vacuum piping.
15.11.3.3.2
Area alarm panels shall indicate the following:
(1) Oxygen supply pressure ±20 percent from normal
(2) Nitrous oxide supply pressure ±20 percent from normal
(3) Nitrogen supply pressure ±20 percent from normal
(4) Dental compressed air pressure ±20 percent from normal
(5) Dental vacuum at or below 300 mm (12 in.) gauge HgV
15.11.3.4 Local Alarms.
15.11.3.4.1
Local alarms shall be located in source equipment control panels or separate control panels in theequipment rooms for source equipment.
15.11.3.4.2
Local alarms shall include the following:
(1) Dental compressed air backup or lag compressor in operation
(2) Dental vacuum backup or lag vacuum pump in operation
(3) Liquid ring air compressor high receiver water level
(4) Liquid ring air compressor high separator water
(5) Water-cooled compressor high receiver water level
(6) Nonwater air compressor high discharge air temperature
15.11.4 Category 3 Warning Systems.
15.11.4.1 General.
15.11.4.1.1
The warning systems in Category 3 dental facilities shall comply with applicable requirements of15.11.4 .
15.11.4.1.2
The master, area, and local alarm functions shall be permitted to be provided by a single alarm panel,as indicated in 5.2.9 .
15.11.4.2 Master Alarm Panels.
15.11.4.2.1
A master alarm panel shall be located in the facility at a point of continuous surveillance when the facilityis in operation.
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15.11.4.2.2
The master alarm panel shall indicate the following:
(1) Nitrogen supply pressure ±20 percent from normal
(2) Dental compressed air pressure ±20 percent from normal
(3) Changeover of nitrogen supply source
(4) Changeover of dental compressed air source
(5) Individual gas cylinder reserves less than one day's supply
(6) Dental vacuum at or below 300 mm (12 in.) gauge HgV
(7) Local alarm panel with one or more alarms
15.11.4.3 Area Alarm Panels.
15.11.4.3.1
An area alarm panel shall be centrally located where two or more treatment areas are supplied from thesame zoned dental gas and vacuum piping.
15.11.4.3.2
Area alarm panels shall indicate the following:
(1) Nitrogen supply pressure ±20 percent from normal
(2) Dental compressed air pressure ±20 percent from normal
(3) Dental vacuum at or below 300 mm (12 in.) gauge HgV
15.11.4.4 Local Alarms.
15.11.4.4.1
Local alarms shall be located in source equipment control panels or separate control panels in theequipment rooms for source equipment.
15.11.4.4.2
Local alarms shall include the following:
(1) Dental vacuum backup or lag vacuum pump in operation
(2) Liquid ring air compressor high receiver water level
(3) Liquid ring air compressor high separator water
(4) Water-cooled compressor high receiver water level
(5) Nonwater air compressor high discharge air temperature
15.12 Testing and Verification.
15.12.1 General.
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15.12.1.1
Inspection and testing shall be performed on all new piped dental gas and vacuum systems, additions,renovations, temporary installations, or repaired systems to ensure, by a documented procedure, thatthe following have been completed:
(1) All applicable provisions of this code have been adhered to
(2) System integrity has been achieved or maintained
(3) Piping systems are ready for testing and verification
(4) Piping systems are performing in accordance with their design requirements
15.12.1.2
The inspection and testing reports shall be submitted directly to the party that contracted for the testing,who shall submit the reports through channels to the responsible authority and any others that arerequired.
15.12.1.3
Reports shall contain detailed listings of all findings and results.
15.12.1.4
The responsible facility authority shall review the inspection and testing records prior to the use of anysystems to ensure that all findings and results of the inspection and testing have been successfullycompleted before use.
15.12.1.5
All documentation pertaining to inspections and testing shall be maintained on-site within the facility.
15.12.2 Required Testing and Verification.
15.12.2.1 Category 1 Facilities.
All dental gas and vacuum piping systems indicated in 15.5.1 for Category 1 facilities shall be initiallytested in accordance with 15.12.4 and verified in accordance with 15.12.6 .
15.12.2.2 Category 2 Facilities.
All dental gas and vacuum piping systems indicated in 15.5.2 for Category 2 facilities shall be initiallytested in accordance with 15.12.4 . The support gas systems and vacuum systems (dentalcompressed air or nitrogen, dental vacuum, and scavenging) shall be final tested in accordance with15.12.5 . The oxygen and nitrous oxide piping systems shall be verified in accordance with 15.12.6 .
15.12.2.2.1
The support gas systems and vacuum systems (i.e., dental compressed air or nitrogen, dental vacuum,and scavenging) shall be final tested in accordance with 15.12.5 .
15.12.2.2.2
The oxygen and nitrous oxide piping systems shall be verified in accordance with 15.12.6 .
15.12.2.3 Category 3 Facilities.
All support gas and vacuum piping systems indicated in 15.5.3 for Category 3 facilities shall be initiallytested in accordance with 15.12.4 and final tested in accordance with 15.12.5 .
15.12.3 Qualification of System Testers and Verifiers.
15.12.3.1
Individuals who perform the initial and final tests of the dental gas and vacuum piping systems shall becertified to ASSE 6010, Professional Qualifications Standard for Medical Gas Systems Installers , orverifiers who comply with 15.12.3.2 .
15.12.3.2
Individuals who verify the dental gas and vacuum piping systems shall be certified to ASSE 6030,Professional Qualifications Standard for Medical Gas Systems Verifiers .
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15.12.4 Initial Testing of Piping Systems.
15.12.4.1 General.
15.12.4.1.1
The initial tests required by 15.12.4 shall be performed prior to either the final tests listed in 15.12.5or the verification tests listed in 15.12.6 .
15.12.4.1.2
The test gas for gas piping systems shall be oil-free, dry nitrogen NF.
15.12.4.1.3
Where manufactured assemblies are to be installed, the initial tests required by 15.12.4 shall beperformed as follows:
(1) After completion of the distribution piping, but before the standing pressure test
(2) Prior to installation of manufactured assemblies supplied through flexible hose or flexible tubing
(3) For all station outlets/inlets on installed manufactured assemblies supplied through copper tubing
15.12.4.1.4
Where plastic vacuum and plastic scavenging piping systems are installed, they shall be visuallyinspected for cross-connections to positive-pressure systems before applying positive test pressures tothe copper piping systems.
15.12.4.1.5
Where brazed joints in copper tubing are found to be defective, they shall be repaired if permitted by15.10.8.6 or replaced if required by or replaced if required by 15.10.8.5 , and retested. The pipingshall be repurged if necessary.
15.12.4.1.6
During the process of initial testing, the identification and labeling of the gas and vacuum piping shall bechecked.
15.12.4.2 Initial Piping Blowdown.
Piping in dental gas and vacuum distribution systems shall be blown clear by means of oil-free, drynitrogen NF after installation of the distribution piping but before installation of station outlet/inletrough-in assemblies and other system components (e.g., pressure/vacuum alarm devices,pressure/vacuum indicators, pressure relief valves, manifolds, and source equipment).
15.12.4.3 Initial Cross-Connection Test for Plastic Vacuum and Plastic Scavenging Piping Systems.
15.12.4.3.1
Plastic piping shall be tested before copper piping.
15.12.4.3.2
Tests shall be conducted to determine that no cross-connections exist between any plastic vacuumpiping systems or plastic scavenging piping systems and any copper piping systems.
15.12.4.3.3
The vacuum or scavenging source shutoff valves for the vacuum or scavenging piping systems shallremain closed during the tests, unless they are being used for the cross-connection test vacuum source.
15.12.4.3.4
The cross-connection test vacuum shall be a minimum of 300 mm (12 in.) HgV.
15.12.4.3.5
The source of test vacuum shall be connected only to the vacuum or scavenging piping system beingtested.
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15.12.4.3.6
All individual gas system outlets and vacuum or scavenging system inlets shall be checked to determinethat the test vacuum is only present in the vacuum or scavenging piping system being tested.
15.12.4.3.7
The cross-connection tests shall be repeated for each installed vacuum and scavenging system withplastic piping.
15.12.4.3.8
Any cross-connections shall be removed and the associated piping repaired and leak tested.
15.12.4.3.9
The proper labeling and identification of system outlets/inlets shall be confirmed during the initial tests.
15.12.4.4 Initial Cross-Connection Test for Copper Piping Systems.
15.12.4.4.1
Copper piping shall not be tested before any plastic piping.
15.12.4.4.2
It shall be determined that no cross-connections exist between the various gas and vacuum pipingsystems.
15.12.4.4.3
All piping systems shall be reduced to atmospheric pressure.
15.12.4.4.4
Sources of test gas shall be disconnected from all piping systems except for the one system beingtested.
15.12.4.4.5
The system under test shall be charged with oil-free, dry nitrogen NF to a gauge pressure of 345 kPa(50 psi).
15.12.4.4.6
After the installation of the individual faceplates with appropriate adapters matching outlet/inlet labels,each individual outlet/inlet in each installed gas and vacuum piping system shall be checked todetermine that the test gas is dispensed only from the piping system tested.
15.12.4.4.7
The initial cross-connection test in 15.12.4.4 shall be repeated for each installed gas and vacuumpiping system with copper piping.
15.12.4.4.8
Any cross-connections shall be removed and the associated piping repaired and leak tested.
15.12.4.4.9
The proper labeling and identification of system outlets/inlets shall be confirmed during these tests.
15.12.4.5 Initial Pressure Test.
15.12.4.5.1
Each section of the piping in positive-pressure gas systems and copper vacuum systems shall bepressure tested. Plastic vacuum and plastic scavenging piping shall not be pressure tested.
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15.12.4.5.2
Initial pressure tests shall be conducted as follows:
(1) After blowdown of the distribution piping
(2) After installation of station outlet/inlet rough-in assemblies
(3) Prior to the installation of components of the distribution piping system that would be damaged bythe test pressure (e.g., pressure/vacuum alarm devices, pressure/vacuum indicators, and linepressure relief valves)
15.12.4.5.3
The source shutoff valve shall remain closed during the pressure tests.
15.12.4.5.4
The test pressure for pressure gas piping and copper vacuum piping shall be 1.5 times the systemoperating pressure but not less than a gauge pressure of 1035 kPa (150 psi).
15.12.4.5.5
The test pressure shall be maintained until each joint has been examined for leakage by means of aleak detectant that is safe for use with oxygen and does not contain ammonia.
15.12.4.5.6
Any leaks shall be located, repaired (if permitted), or replaced (if required) by the installer, and retested.
15.12.4.6 Initial Piping Purge Test.
15.12.4.6.1
The outlets in each gas piping system shall be purged to remove any particulate matter from thedistribution piping.
15.12.4.6.2
Using appropriate adapters, each outlet shall be purged with an intermittent high-volume flow of test gasuntil the purge produces no discoloration in a clean white cloth.
15.12.4.6.3
The purging shall be started at the closest outlet to the piping shutoff valve and continue to the furthestoutlet from the shutoff valve.
15.12.4.7 Standing Pressure Test for Positive-Pressure Gas Piping.
15.12.4.7.1
After successful completion of the initial pressure tests in 15.12.4.5 , the gas distribution piping shall besubject to a standing pressure test.
15.12.4.7.2
Tests shall be conducted after the final installation of station outlet valve bodies, faceplates, and otherdistribution system components (e.g., pressure alarm devices, pressure indicators, line pressure reliefvalves, manufactured assemblies, and hoses).
15.12.4.7.3
The source valve shall be closed during this test.
15.12.4.7.4
The piping systems shall be subjected to 24-hour standing pressure tests using oil-free, dry nitrogen NF.
15.12.4.7.5
Test pressures shall be 20 percent above the normal system operating line pressure.
15.12.4.7.6
At the conclusion of the tests, there shall be no change in the test pressure except that attributed tospecific changes in ambient temperature.
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15.12.4.7.7
Any leaks shall be located, repaired (if permitted), or replaced (if required) by the installer, and retested.The piping shall be repurged if necessary.
15.12.4.7.8
The 24-hour standing pressure tests shall be witnessed by the authority having jurisdiction or itsdesignee. A form indicating that these tests have been performed and witnessed shall be provided tothe verifier at the start of the verification tests in 15.12.6 .
15.12.4.8 Standing Vacuum Test for Vacuum Piping.
15.12.4.8.1
After successful completion of the initial pressure tests in 15.12.4.5 , vacuum distribution piping,including scavenging and WAGD, shall be subjected to a standing vacuum test.
15.12.4.8.2
Tests shall be conducted after installation and connection of all components of the vacuum system.
15.12.4.8.3
The piping systems shall be subjected to a 24-hour standing vacuum test.
15.12.4.8.4
Test pressure shall be between 300 mm (12 in.) HgV and full vacuum.
15.12.4.8.5
During the test, the source of test vacuum shall be disconnected from the piping system.
15.12.4.8.6
At the conclusion of the test, there shall be no change in the vacuum pressure other than that attributedto changes of ambient temperature.
15.12.4.8.7
The 24-hour standing vacuum test of the vacuum system shall be witnessed by the authority havingjurisdiction or its designee. A form indicating that this test has been performed and witnessed shall beprovided to the verifier at the start of the verification tests required in 15.12.6 .
15.12.4.8.8
Any leaks shall be located, repaired (if permitted), or replaced (if required) by the installer, and retested.
15.12.5 Final Testing of Piping Systems.
15.12.5.1 General.
15.12.5.1.1
The dental gas and vacuum piping systems requiring final testing shall be as indicated in 15.12.2 forthe different dental facilities.
15.12.5.1.2
Required final testing of dental gas and vacuum piping systems shall be performed only after all initialtests required in 15.12.4 have been completed.
15.12.5.1.3
The test gas shall be oil-free, dry nitrogen NF or the system gas or vacuum.
15.12.5.1.4
Where brazed joints in copper piping are found to be defective, they shall be repaired if permitted by15.10.8.6 or replaced if required by 15.10.8.5 , and retested. The piping shall be repurged ifnecessary.
15.12.5.1.5
During the process of final testing, the presence and proper labeling of source equipment, stationoutlets/inlets, zone valve boxes, shutoff valves, and alarms shall be checked.
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15.12.5.2 Final Cross-Connection Test.
After the closing of walls and completion of the initial tests for all gas and vacuum systems, it shall bedetermined that no cross-connections exist between those piping systems being final tested and anyother gas or vacuum piping system, including those requiring verification in 15.12.6 , using thefollowing method:
(1) Independently test each piping system being final tested, starting with the vacuum andscavenging systems first, and check that the test vacuum is present only at inlets of the systembeing tested.
(2) Reduce all piping systems to atmospheric pressure.
(3) Operate the vacuum or scavenging system being final tested at the normal system vacuum, usingthe source equipment.
(4) Test every gas outlet and vacuum or scavenging inlet using appropriate adapters to verify that thetest vacuum is present only at the vacuum inlets in the system being tested, and not at any outletor inlet of any other dental piping system.
(5) Shut off the vacuum for the piping system being tested and slowly break the vacuum in its piping,increasing its pressure to atmospheric.
(6) Test each vacuum and scavenging system requiring final testing until all are determined to be freeof cross-connections.
(7) Using oil-free, dry nitrogen NF or the system gas, pressurize the positive-pressure gas systembeing final tested to a gauge pressure of 345 kPa (50 psi).
(8) Test each gas outlet using appropriate adapters to verify that the test gas pressure is present onlyat the outlets in the gas piping system being tested.
(9) After it has been determined that a gas piping system being final tested is free of cross-connections, shut off its test gas and reduce its piping to atmospheric pressure.
(10) Proceed to test each gas piping system requiring final testing until all are determined to be free ofcross-connections.
(11) Any cross-connections shall be removed and the associated piping repaired and tested for leaks.
15.12.5.3 Final Standing Pressure Test.
Each positive-pressure gas piping system shall be subjected to a 10-minute standing pressure test atoperating line pressure using the following procedures:
(1) After the system is filled with oil-free, dry nitrogen NF or the system gas, the source valve shall beclosed.
(2) The piping downstream of the valve shall show no decrease in pressure after 10 minutes.
(3) Any leaks shall be located, repaired (if permitted), or replaced (if required) by the installer, andretested.
15.12.5.4 Final Standing Vacuum Test.
Each vacuum, WAGD, and scavenging piping system shall be subjected to a 10-minute standingvacuum test at operating line vacuum using the following procedures:
(1) After the system has stabilized at the operating line vacuum, the source valve and any zonevalves shall be closed.
(2) The piping system upstream of the valves shall show no decrease in vacuum after 10 minutes.
(3) Any leaks shall be located, repaired (if permitted), or replaced (if required) by the installer, andretested.
15.12.5.5 Final Piping Purge Test.
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To remove any traces of particulate matter deposited in the piping as a result of construction, a heavy,intermittent purging of each positive-pressure gas pipeline shall be done.
15.12.5.5.1
The appropriate adapter shall be used and high purge rates shall be put on each outlet.
15.12.5.5.2
After the purge is started, it shall be rapidly interrupted several times until the purge produces nodiscoloration in a white cloth loosely held over the adapter during the purge.
15.12.5.5.3
To avoid possible damage to the outlet and its components, the test shall not be conducted using anyimplement other than the correct adapter.
15.12.5.6 Final Tie-in Tests.
15.12.5.6.1
Prior to the connection of any new piping in extensions or additions to an existing piping system, thefinal tests in 15.12.5 shall be successfully performed on the new work.
15.12.5.6.2
Each joint in the final connection between the new work and the existing system shall be leak-tested,with the gas of system designation or vacuum at the normal operating pressure or vacuum, by means ofa leak detectant that is safe for use with oxygen and does not contain ammonia.
15.12.5.6.3
For positive-pressure gas piping, immediately after a final connection is made and leak-tested, thespecific altered zone and components in the immediate zone or area that is downstream from the pointor area of intrusion shall be purged in accordance with the applicable requirements of 15.12.5.5 .
15.12.6 Verification of Piping Systems.
15.12.6.1 General.
15.12.6.1.1
The dental gas and vacuum piping systems requiring initial testing and verification shall be as indicatedin 15.12.2 for the different dental facilities.
15.12.6.1.2
Required verification of dental gas and vacuum piping systems shall be performed only after all initialtests required in 15.12.4 have been completed.
15.12.6.1.3
The test gas shall be oil-free, dry nitrogen NF or the system gas or vacuum where permitted.
15.12.6.1.4
Verification shall be conducted by a party technically competent and experienced in the field of medicalgas and vacuum piping system testing and certified for ASSE 6030, Professional QualificationsStandard for Medical Gas Systems Verifiers .
15.12.6.1.5
Verification shall be performed by a party other than the installing contractor.
15.12.6.1.6
All required verification tests shall be performed after installation of any manufactured assembliessupplied through tubing or flexible hose.
15.12.6.1.7
Where there are multiple possible connection points for terminals, each possible position shall be testedindependently.
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15.12.6.1.8
Where brazed joints in copper tubing are found to be defective, they shall be repaired if permitted by15.10.8.6 or replaced if required by 15.10.8.5 , and retested. The piping shall be repurged ifnecessary.
15.12.6.1.9
During the process of verification, the presence and proper labeling of source equipment, stationoutlets/inlets, zone valve boxes, shutoff valves, and alarms shall be checked.
15.12.6.2 Verifier Standing Pressure Test.
Positive-pressure gas piping systems requiring verification shall be subjected to a 10-minute standingpressure test at operating line pressure using the following procedure:
(1) After the system is filled with nitrogen or the source gas, the source valve shall be closed.
(2) The piping system shall show no decrease in pressure after not less than 10 minutes.
(3) Any leaks shall be located, repaired (if permitted), or replaced (if required) by the installer, andretested.
15.12.6.3 Verifier Standing Vacuum Test.
Each vacuum and WAGD piping system shall be subjected to a 10-minute standing vacuum test atoperating line vacuum using the following procedures:
(1) After the system has stabilized at the operating line vacuum, the source valve and any zonevalves shall be closed.
(2) The piping system upstream of the shutoff valves shall show no decrease in vacuum after not lessthan 10 minutes.
(3) Any leaks shall be located, repaired (if permitted) or replaced (if required) by the installer, andretested.
15.12.6.4 Verifier Tests for Cross-Connections.
The piping systems shall be tested for cross-connections between the systems by either individualpressurization (see 15.12.6.4.1 ) or pressure differential (see 15.12.6.4.2 ) .
15.12.6.4.1 Verifier Cross-Connection Test by Individual Pressurization.
If verified by initial pressurization, the following shall apply:
(1) All gas and vacuum piping systems shall be reduced to atmospheric pressure.
(2) All sources of test gas for all of the gas and vacuum systems, with the exception of the onesystem to be checked, shall be disconnected.
(3) The system being checked shall be pressurized to a gauge pressure of 345 kPa (50 psi).
(4) With adapters matching outlet labels, each individual station outlet/inlet of all medical gas andvacuum systems installed shall be checked to determine that test gas is dispensed only from theoutlets/inlets of the piping system being tested.
(5) The source of test gas shall be disconnected, and the system that was tested reduced toatmospheric pressure.
(6) Proceed to test each additional piping system until all gas and vacuum piping systems requiringverification are free of cross-connections.
(7) Any cross-connections shall be removed and the associated piping repaired and tested for leaks.
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15.12.6.4.2 Verifier Cross-Connection Test by Pressure Differential.
If verified by pressure differential, the following shall apply:
(1) The pressure in all piping systems shall be reduced to atmospheric.
(2) The test gas pressure in all piping systems shall be increased to the following values, maintainingthese nominal pressures throughout the test:
(a) Medical air = 415 kPa (60 psi)
(b) Oxygen = 345 kPA (50 psi)
(c) Nitrous oxide = 275 kPa (40 psi)
(d) Nitrogen or instrument air = 210 kPa (30 psi)
(e) Dental-surgical-vacuum = 510 mm (20 in.) HgV
(f) WAGD = 380 mm (15 in.) HgV
(3) Any vacuum systems shall be operational so that these vacuum systems are tested at the sametime the gas systems are tested.
(4) Following the adjustment of pressures in accordance with 15.12.6.4.2(2) , each stationoutlet/inlet shall be tested using the gas-specific connection for each system with a test gaugeattached to verify that the correct test pressure/vacuum is present at each outlet/inlet of eachsystem.
(5) Each test gauge used in performing this test shall be calibrated with the pressure indicator usedfor the line pressure regulator used to provide the source pressure.
(6) Each station outlet/inlet shall be identified by label and color marking, if used, and the pressureindicated on the test gauge shall be that listed in 15.12.6.4.2(2) for the system being tested.
(7) Any cross-connections shall be removed and the associated piping repaired and tested for leaks.
15.12.6.5 Verifier Piping Purge Test.
15.12.6.5.1
To remove any traces of particulate matter deposited in the positive pressure gas piping duringconstruction, a heavy, intermittent purging of the piping shall be done.
15.12.6.5.2
The appropriate adapter shall be obtained and high purge rates of at least 225 Nl/min (8 SCFM) shall beput on each outlet.
15.12.6.5.3
After each purge is started, it shall be rapidly interrupted several times until the purge produces nodiscoloration in a white cloth loosely held over the adapter during the purge.
15.12.6.5.4
To avoid possible damage to the outlet and its components, this test shall not be conducted using anyimplement other than the proper adapter.
15.12.6.5.5
No pronounced or objectionable odor shall be discernible from any positive pressure outlet.
15.12.6.6 Verifier Piping Particulate Test.
15.12.6.6.1
For each positive-pressure gas system, the cleanliness of the piping system shall be verified.
15.12.6.6.2
The test shall be performed with the use of oil-free, dry nitrogen NF.
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15.12.6.6.3
A minimum of 1000 L (35 ft 3 ) of gas shall be filtered through a clean, white 0.45 micron filter at aminimum flow rate of 100 Nl/min (3.5 SCFM).
15.12.6.6.4
Fifty percent of the zones shall be tested at the outlet most remote from the source.
15.12.6.6.5
The filter shall accrue no more than 0.001 g (1 mg) of matter from any outlet tested.
15.12.6.6.6
If any outlet fails this test, the most remote outlet in every zone shall be tested.
15.12.6.7 Verifier Piping Purity Test.
15.12.6.7.1
For each gas system, the purity of the piping system shall be verified in accordance with 15.12.6.6 .
15.12.6.7.2
These tests shall be performed with oil-free, dry nitrogen NF or the system gas.
15.12.6.7.3
The outlet most remote from the source shall be tested for total nonmethane hydrocarbons andcompared to the test of the source gas.
15.12.6.7.4
If the system gas is used as the source gas, it shall be tested at the source equipment.
15.12.6.7.5
The difference between the two tests shall in no case exceed 5 ppm of total nonmethane hydrocarbons.
15.12.6.7.6
The difference between the two tests shall in no case exceed 5 ppm halogenated hydrocarbons.
15.12.6.7.7
The moisture concentration of the outlet test shall not exceed 500 ppm or an equivalent pressure dewpoint of −12°C (10°F) at a gauge pressure of 345 kPa (50 psi).
15.12.6.8 Verifier Final Tie-in Test.
15.12.6.8.1
Prior to the connection of any work or any extension or addition to an existing piping system, theverification tests in 15.12.6 shall be successfully performed on the new work.
15.12.6.8.2
Each joint in the final connection between the new work and the existing system shall be leak-testedwith the gas of system designation at the normal operating pressure by means of a leak detectant that issafe for use with oxygen and does not contain ammonia.
15.12.6.8.3
Vacuum joints shall be tested using an ultrasonic leak detector or other means that will allow detectionof leaks in an active vacuum system.
15.12.6.8.4
For pressure gases, immediately after the final brazed connection is made and leak-tested, an outlet inthe new piping and an outlet in the existing piping that are immediately downstream from the point orarea of intrusion shall be purged in accordance with the applicable requirements of 15.12.6.4 .
15.12.6.8.5
Before the new work is used for patient care, positive pressure gases shall be tested for operationalpressure and gas concentration in accordance with 15.12.6.8 and 15.12.6.9 .
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15.12.6.8.6
Permanent records of these tests shall be maintained.
15.12.6.9 Verifier Operational Pressure Test.
15.12.6.9.1
Operational pressure tests shall be performed at each station outlet/inlet or terminal where the usermakes connections and disconnections.
15.12.6.9.2
Tests shall be performed with the gas of system designation or the operating vacuum.
15.12.6.9.3
All medical gas outlets with a gauge pressure of 345 kPa (50 psi), including oxygen, nitrous oxide, andmedical air, shall deliver 100 SLPM (3.5 SCFM) with a pressure drop of not more than 35 kPa (5 psi)and static pressure of 345 kPa to 380 kPa (50 psi to 55 psi).
15.12.6.9.4
Support gas outlets shall deliver 140 SLPM (5.0 SCFM) with a pressure drop of not more than 35 kPa (5psi) gauge and static pressure of 1100 kPa to 1275 kPa (160 psi to 185 psi) gauge.
15.12.6.9.5
Dental-surgical vacuum inlets shall draw 85 Nl/min (3 SCFM) without reducing the vacuum pressurebelow 300 mm (12 in.) gauge HgV at any adjacent station inlet.
15.12.6.10 Verifier Gas Concentration Test.
After purging each system with the gas of system designation, the following shall be performed:
(1) Each pressure gas source and outlet shall be analyzed for concentration of gas, by volume.
(2) Analysis shall be conducted with instruments designed to measure the specific gas dispensed.
(3) Allowable concentrations shall be as follows:
(a) Oxygen ≥ 99%
(b) Nitrous oxide ≥ 99%
(c) Nitrogen ≤ 1% oxygen or ≥ 99% nitrogen
(d) Medical air 19.5%–23.5% oxygen
(e) Other gases ± 1% unless otherwise specified
15.12.6.11 Verifier Medical Air Purity Test for Compressor Sources.
15.12.6.11.1
The medical air compressor source shall be analyzed for concentration of contaminants by volume priorto the source valve being opened.
15.12.6.11.2
A sample(s) shall be taken for the air system test at the system sample port.
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15.12.6.11.3
The test results shall not exceed the following parameters:
(1) Pressure dew point — 2°C (35°F)
(2) Carbon monoxide — 10 ppm
(3) Carbon dioxide — 500 ppm
(4) Gaseous hydrocarbons — 25 ppm (as methane)
(5) Halogenated hydrocarbons — 2 ppm
15.13 Operation and Management.
15.13.1 System Shutdowns.
15.13.1.1
Gas and vacuum piping systems shall be shut down at the end of each work day.
15.13.1.2
Emergency shutoff valves or remote actuators shall not be used for daily shutdown of the systems.Cylinder gas valves shall be used for daily shutdowns.
15.13.2 Prohibited Interconnections.
15.13.2.1
Two or more piping systems for different gases or different vacuums shall not be interconnected fortesting or any other reason.
15.13.2.2
Leak testing shall be accomplished by separately charging and testing each individual piping system.
15.13.3 Manufacturer's Instructions.
15.13.3.1
Piping system components shall be installed, adjusted, operated, and maintained in accordance with themanufacturer's instructions.
15.13.3.2
Copies of the manufacturer's instructions shall be provided to the facility and maintained at the facility.
15.13.4 Maintenance.
15.13.4.1
Gas and vacuum system equipment shall be maintained by a qualified representative of the equipmentmanufacturer.
15.13.5 Periodic Testing.
15.13.5.1
Station inlets for medical-surgical vacuum shall be tested for flow and vacuum on an approvedschedule.
Supplemental Information
File Name Description
Chapter_15_Dental_Gas_and_Vacuum_Piping_12-5-15_.docx
Submitter Information Verification
Submitter Full Name: Jon Hart
Organization: [ Not Specified ]
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Street Address:
City:
State:
Zip:
Submittal Date: Wed Dec 16 07:07:20 EST 2015
Committee Statement
CommitteeStatement:
Committee Input 648 proposed a new chapter on dental gas and vacuum systems because theunique and specific needs of those system. This text was formulated by a task group of HEA-PIP.The CC is creating this FCR to allow for a public review of the full proposed text. Also, seeCorrelating Note 1 for additional direction relating to this topic in the second draft stage.
National Fire Protection Association Report http://submittals.nfpa.org/TerraViewWeb/ContentFetcher?commentPara...
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Chapter 15 Dental Gas and Vacuum Piping Systems
15.1 Applicability. These requirements shall apply to dental
health care facilities that qualify to install dental gas and vacuum
piping systems in accordance with this Chapter 15.
15.1.1 Category 1 piped gas and piped vacuum system
requirements shall be applied in dental facilities where general
anesthesia, deep sedation & moderate sedation is performed, as
defined in 3.3.61.1 and 3.3.61.2.
15.1.2 Category 2 piped gas and piped vacuum system
requirements shall be applied in dental facilities where only
minimal sedation is performed, as defined in 3.3.61.3 and
3.3.61.4.
15.1.3 Category 3 piped gas and piped vacuum system
requirements shall be applied in dental facilities where no
anesthesia or sedation is performed.
15.1.4 An existing system that is not in strict compliance with the requirements of this code
shall be permitted to continue in use as long as the authority having jurisdiction has determined
that such use does not constitute a distinct hazard to life.
15.1.5 The following subsections of this chapter shall apply to the operation, management, and
maintenance of dental gas and vacuum piping systems in both new and existing dental facilities
within the scope of this chapter:
(1) (to be completed based on final draft of Chapter 27)
(2)
(3)
(x)
15.2 Nature of Hazards of Gas and Vacuum Systems. Potential fire and explosion hazards
associated with positive pressure dental gas systems and vacuum systems shall be considered in
the design, installation, testing, operation, and maintenance of these systems.
15.3 Installer Qualifications.
15.3.1 The installers of dental gas and vacuum systems shall be
certified in accordance with ASSE 6010, Professional
Qualification Standard for Medical Gas Systems Installers,
regardless of the capacity of the source equipment.
15.3.2 Installers of dental gas and vacuum systems shall not use their certification to oversee
installation by non-certified personnel.
15.3.3 Brazing of dental gas and vacuum piping systems shall be performed by individuals who
are qualified in accordance with 15.10.1.
15.3.4 Prior to any installation work involving brazing, the installer of the dental and vacuum
piping systems shall provide documentation for the qualifications of the brazing procedures and
individual brazers that are required by 15.10.1.
15.4 Dental Gas and Vacuum Piping Systems
15.4.1 General. Dental gas and vacuum piping systems shall include medical gases, dental
support gases, and dental vacuum systems.
15.4.2 Medical Gases. Medical gas systems in dental facilities shall include oxygen USP,
nitrous oxide USP, and medical air USP. Oxygen and nitrous oxide shall be provided by
cylinders. Medical air shall be provided by cylinders or medical air compressors.
15.4.3 Support Gases. Dental support gases shall include instrument air, dental compressed
air, and nitrogen NF. Instrument air and dental compressed air shall be provided by cylinders or
air compressors. Nitrogen shall be provided by cylinders.
15.4.4 Vacuum Systems. Dental vacuum systems shall include dental-surgical vacuum, dental
vacuum, nitrous oxide scavenging, and waste anesthetic gas disposal (WAGD).
15.5 Dental Facilities.
15.5.1 Category 1. Category 1 dental facilities shall perform moderate sedation, deep sedation,
and general anesthesia associated with implant dentistry and oral surgery. The medical gases
shall be limited to oxygen, nitrous oxide, and medical air. The dental support gases shall be
instrument air and nitrogen. The vacuum systems shall be dental-surgical vacuum, and WAGD.
15.5.2 Category 2. Category 2 dental facilities shall be limited to minimal sedation. The
medical gases shall be limited to oxygen and nitrous oxide. The dental support gases shall be
dental compressed air and nitrogen. The vacuum systems shall be dental vacuum and nitrous
oxide scavenging.
15.5.3 Category 3. Category 3 dental facilities shall perform no sedation. There shall be no
medical gases. The dental support gases shall be dental compressed air and nitrogen. The
vacuum system shall be dental vacuum.
15.5.4 Multiple Categories. A single dental facility may include gas and vacuum systems for
more than one type of dental facility.
15.6 Equipment Locations for Gas and Vacuum Systems.
15.6.1 General.
15.6.1.1 Any of the following systems shall be permitted to be located together in the same
room:
(1) Medical air compressor supply sources
(2) Instrument air compressor sources and reserve headers
(3) Dental-surgical vacuum sources
(4) Dental vacuum sources
(5) Waste anesthetic gas disposal (WAGD) sources
(6) Any other compressor, vacuum pump, or electrically powered machinery
15.6.1.2 Indoor locations for oxygen, nitrous oxide, and mixtures of these gases shall not
communicate with the following:
(1) Areas involved in critical patient care
(2) Anesthetizing locations where moderate sedation, deep sedation, or general anesthesia is
administered
(3) Locations storing flammables
(4) Rooms containing open electrical contacts or transformers
(5) Storage tanks for flammable or combustible liquids
(6) Engines
(7) Kitchens
(8) Areas with open flames
15.6.2 Cylinders and Containers. Cylinders and containers for gases shall be handled in
accordance with Chapter 11 - Gas Equipment.
15.6.3 Ventilation.
15.6.3.1 For Indoor Locations. Medical gas storage and transfilling room ventilation shall
comply with 9.3.6.
15.6.3.2 For Motor-Driven Equipment. The following source locations shall be adequately
ventilated to prevent accumulation of heat:
(1) Medical air sources
(2) Instrument air sources
(3) Dental compressed air sources
(4) Dental-surgical vacuum sources
(5) Dental vacuum sources
(6) Waste anesthetic gas disposal (WAGD) sources
15.7 Dental Gas and Vacuum Source Equipment.
15.7.1 General.
15.7.1.1 The capacity of source equipment shall be based on the design requirements for the
facility, including the number of gas outlets, vacuum inlets, and other connections, and their
individual capacities.
15.7.1.2 The system design requirements shall be included in the data used for testing and
verifying the operation of the gas and vacuum piping systems.
15.7.2 Medical Gases.
15.7.2.1 General.
15.7.2.1.1 Medical gases for dental use shall be limited to oxygen USP, nitrous oxide USP, and
medical air USP.
15.7.2.1.2 The use of medical air shall be limited to human respiration and the calibration of
equipment used in human respiration.
15.7.2.1.3 The sources of oxygen and nitrous oxide shall be high pressure cylinders or liquid
cylinders.
15.7.2.1.4 The sources of medical air shall be high pressure cylinders, liquid cylinders, or
medical air compressors.
15.7.2.2 Medical Air Compressor Units.
15.7.2.2.1 Medical air compressor units shall include medical air compressors, vibration
isolation, air receivers, air filters, line pressure regulators, pressure relief valves, air dryers, dew
point and CO monitors, single point air connections, electrical disconnects, motor wiring, and
controls. The air compressors shall be simplex or multiplex, load/unload or variable speed.
15.7.2.2.2 Medical air compressors shall be oil-less reciprocating, oil-free rotary tooth, or the
scroll type.
15.7.2.2.3 Medical air compressor units shall meet the requirements for 5.2.3.5.
15.7.3 Instrument Air.
15.7.3.1 General.
15.7.3.1.1 Instrument air shall be used as a support gas for driving surgical tools. It shall also
be permitted to drive dental tools and air-driven equipment.
15.7.3.1.2 Instrument air outlets shall not be interchangeable with any other gas outlets,
including medical air, dental compressed air, and nitrogen.
15.7.3.1.3 The primary source of instrument air shall be an instrument air compressor. Where a
secondary source is provided, it shall be another instrument air compressor or medical air
cylinders.
15.7.3.2 Instrument Air Compressor Units.
15.7.3.2.1 Instrument air compressor systems shall include air compressors, vibration isolation,
air receivers, coalescing filters for oil removal, activated carbon absorbers for vapor and gaseous
oil, air filters, line pressure regulators, pressure relief valves, air dryers, dew point and CO
monitors, single point air connections, electrical disconnects, motor wiring, and controls. The air
compressors shall be simplex or multiplex, load/unload or variable speed.
15.7.3.2.2 Instrument air compressors shall be either oil-lubricated, oil-less, or oil-free, with a
discharge pressure not less than 1380 kPa (200 psi).
15.7.3.2.3 Instrument air compressor units shall comply with 5.1.13.3.5.
15.7.3.2.4 The quality of the instrument air shall be as follows:
(1) compliant with ANSI/ISA S-7.0.01 Quality Standard for Instrument Air
(2) filtered to 0.01 micron
(3) free of liquids (e.g. water, hydrocarbons, solvents)
(4) free of hydrocarbon vapors
(5) dry to a dew point of -40°C (-40°F)
15.7.4 Dental-Surgical Vacuum.
15.7.4.1 General.
15.7.4.1.1 Dental-surgical vacuum systems shall provide patient suction for implant dentistry,
oral surgery, and waste anesthetic gas disposal (WAGD).
15.7.4.1.2 Dental-surgical inlets shall not be interchangeable with any other vacuum inlets,
including dental vacuum and WAGD.
15.7.4.2 Dental-Surgical Vacuum Pump Units.
15.7.4.2.1 Dental-surgical vacuum units shall include vacuum pumps, vibration isolation,
separation tanks, non-return valve, vacuum inlet, vacuum exhaust, condensate drain, motor
wiring, and controls.
15.7.4.2.2 Dental-surgical vacuum pumps shall be either lubricated rotary vane, dry rotary vane,
or the contact-less claw type. The pumps shall be suitable for dual use with WAGD.
15.7.4.2.3 Dental-surgical vacuum systems shall comply with 5.1.3.7.
15.7.5 Waste Anesthetic Gas Disposal (WAGD).
15.7.5.1 General.
15.7.5.1.1 Waste anesthetic gas disposal (WAGD) shall be provided wherever the dental
treatment involves general anesthesia, deep sedation, and/or moderate sedation. General
anesthesia, deep sedation, and/or moderate sedation shall not be performed using inlets for
nitrous oxide scavenging.
15.7.5.1.2 WAGD shall be connected to the dental-surgical vacuum system as dual use
WAGD/dental-surgical vacuum (high volume).
15.7.5.1.3 Mixed system piping for WAGD and dental-surgical vacuum may be joined at the
inlets, in the distribution piping, or at the source equipment. The piping shall be sized
accordingly.
15.7.5.1.4 WAGD inlets shall not be interchangeable with any other vacuum inlets, including
dental-surgical vacuum, dental vacuum, and nitrous oxide scavenging.
15.7.5.1.5 WAGD pump units shall comply with 5.1.3.8.
15.7.6 Dental Compressed Air.
15.7.6.1 General.
15.7.6.1.1 Dental compressed air shall be used as a support gas for driving dental tools. It can
also supply air-driven equipment. Dental compressed air shall not be used for respiration.
15.7.6.1.2 Dental compressed air outlets shall not be interchangeable with any other gas outlets,
including oxygen, nitrous oxide, medical air, instrument air, and nitrogen.
15.7.6.2 Dental Air Compressor Units.
15.7.6.2.1 Dental air compressor units shall include dental air compressors, vibration isolation,
air receivers, coalescent air filters, adsorption dryers, exhaust silencer/filters, moisture indicators,
and service access manifolds, electrical disconnects, motor wiring, and controls.
15.7.6.2.2 Air compressors shall be scroll dental, reciprocating dental, or the oil-free dental
types.
15.7.7 Dental Vacuum.
15.7.7.1 General.
15.7.7.1.1 Dental vacuum shall be used for oral evacuation and nitrous oxide scavenging.
15.7.7.1.2 Dental vacuum inlets shall not be interchangeable with any other vacuum inlets,
including dental-surgical vacuum.
15.7.7.2 Dental Vacuum Units.
15.7.7.2.1 Dental vacuum units shall include dental vacuum pumps, vibration isolation,
separation tanks, vacuum inlet, vacuum exhaust, condensate drain, motor wiring, and controls.
15.7.7.2.2 Dental vacuum pumps shall be dental dry vacuum or dental liquid (wet) ring pumps.
Pumps shall be oil-free or oil-lubricated, and suitable for nitrous oxide scavenging.
15.7.8 Nitrous Oxide Scavenging.
15.7.8.1 General.
15.7.8.1.1 The use of scavenging shall be limited to portions of dental facilities where minimal
sedation is administered. Waste anesthetic gas disposal (WAGD) shall be provided where the
dental treatment involves general anesthesia, deep sedation, and/or moderate sedation.
15.7.8.1.2 Active nitrous oxide scavenging involves the use of a nasal mask on the patient,
which is connected to a scavenging inlet in the dental vacuum system through a flow-limiting
adapter.
15.7.8.1.3 Nitrous oxide scavenging inlets shall not be interchangeable with any other vacuum
inlets, including dental-surgical vacuum, dental vacuum, and WAGD.
15.7.8.2 Connection to Dental Vacuum. Scavenging connections to the dental vacuum
system shall be a direct HVE connection to a high volume vacuum port with a capacity of 45
l/min (1.6 cfm).
15.8 Piping for Gas and Vacuum Systems.
15.8.1 General.
15.8.1.1 Piping for the following systems shall comply with 15.8.2:
(1) oxygen
(2) nitrous oxide
(3) medical air
(4) instrument air
(5) dental-surgical vacuum
(6) WAGD
15.8.1.2 Piping for the following system shall comply with 15.8.3:
(1) dental compressed air
15.8.1.3 Piping for the following systems shall comply with 15.8.4:
(1) dental vacuum
(2) scavenging
15.8.1.4 Piping for the following system shall comply with 15.8.5:
(1) nitrogen
15.8.2 Piping for Oxygen, Nitrous Oxide, Medical Air, Instrument Air, Dental-Surgical
Vacuum, and WAGD.
15.8.2.1 Cleaning for Oxygen Service. For oxygen, nitrous oxide, medical air, and instrument
air, the pipe, fittings, valves, gas/vacuum outlets/inlets, and other piping components shall have
been cleaned for oxygen by the manufacturer prior to installation in accordance with CGA G-4.1,
Cleaning Equipment for Oxygen Service, except that fittings shall be permitted to be cleaned by a
supplier or agency other than the manufacturer.
15.8.2.2 Pipe. Pipe shall be hard-drawn seamless copper tube conforming to ASTM B 819,
Standard Specification for Seamless Copper Tube for Medical Gas Systems, Type L or K.
15.8.2.3 Fittings.
15.8.2.3.1 Fittings shall be brazed, memory metal, or axially swaged.
15.8.2.3.2 Brazed fittings shall be the wrought copper capillary type complying with the
following:
(1) ASME B16.22, Wrought Copper and Copper Alloy Solder-Joint Pressure Fittings
(2) ANSI/ASME B16.50, Wrought Copper and Copper Alloy Braze-Joint Pressure Fittings
(3) ASME B16.22 with socket depths equal to or greater than brazed joint pressure fittings in
accordance with ANSI/ASME B16.50
15.8.2.3.3 Cast copper alloy fittings shall not be used with field-brazed joints.
15.8.2.3.4 Memory metal fittings shall be rated for not less than 538°C (1000°F) and 2070 kPa
(300 psi), and shall be installed by qualified technicians in accordance with the manufacturer's
instructions.
15.8.2.3.5 Axially swaged couplings shall be elastic strain preloaded with metal-to-metal seats,
rated for not less than 538°C (1000°F) and 2070 kPa (300 psi), and shall provide permanent,
non-separable joints. Fittings shall be installed by qualified technicians in accordance with the
manufacturer's instructions.
15.8.2.4 Joints.
15.8.2.4.1 Brazed. Brazing of copper joints shall be in accordance with 15.10.
15.8.2.4.2 Threaded. Threaded joints shall be limited to connections to pressure indicators,
alarm devices, and source equipment and shall comply with the following:
(1) Threads shall be tapered complying with ASME B1.20.1, Pipe Threads, General Purpose,
Inch.
(2) Threads shall be made up with polytetrafluoroethylene (such as Teflon™) tape or other
thread sealant recommended for oxygen service, with the sealant applied to the male
threads only.
15.8.2.4.3 Prohibited Joints. The following joints shall be prohibited under 15.8.2.4:
(1) Flared and compression connections, including connections to station outlets, alarm
devices, and other components
(2) Push-lock connections
(3) Straight-threaded connections, including unions
(4) Pipe crimping tools used to permanently stop the flow of medical gas and vacuum piping.
15.8.3 Piping for Dental Compressed Air.
15.8.3.1 General. Pipe, fittings, and joints in piping for dental compressed air shall be in
accordance with the following.
15.8.3.2 Pipe. Pipe under 15.8.3 shall comply with the following:
(1) ASTM B 819, Standard Specification for Seamless Copper Tube for Medical Gas Systems,
Type L or K.
(2) ASTM B 88, Standard Specification for Seamless Copper Water Tube, Type L or K
(3) ASTM B 280, Standard Specification for Seamless Copper Tubing for Air Conditioning
and Refrigeration Field Service, ACR tube (O.D. size)
(4) Copper tube shall be hard temper or annealed (soft temper).
15.8.3.3 Fittings. Fittings for piping under 15.8.3 shall comply with the following:
(1) Brazed or soldered fittings conforming to ASME B16.22, Wrought Copper and Copper
Alloy Solder-Joint Pressure Fittings
(2) Brazed fittings conforming to ASME B16.50, Wrought Copper and Copper Alloy Braze-
Joint Pressure Fittings
(3) Brazed fittings conforming to ASME B16.22 with socket depths equal to or greater than
braze-joint pressure fittings in compliance with ANSI/ASME B16.50.
(4) Flared fittings conforming to ASME B16.26, Cast Copper Alloy Fittings for Flared Copper
Tubes
(5) Compression fittings (3/4 in. maximum size)
15.8.3.4 Joints. Joints for piping under 15.8.3 shall comply with the following.
15.8.3.4.1 Joints shall be brazed, soldered, threaded, flared, or the compression type.
15.8.3.4.2 Where joints are brazed, they shall comply with the requirements of 15.10.
15.8.3.4.3 Soldered joints shall be made in accordance with ASTM B 828, Standard Practice
for Making Capillary Joints by Soldering of Copper and Copper Alloy Tube and Fittings,
using a “lead-free” solder filler metal containing not more than 0.2 percent lead by volume
that complies with ASTM B 32, Standard Specification for Solder Metal.
15.8.4 Piping for Dental Vacuum and for Scavenging.
15.8.4.1 General. Piping for dental vacuum systems and for scavenging shall be copper, PVC
plastic, or CPVC plastic.
15.8.4.2 Copper Piping. Copper piping under 15.8.4 shall be in accordance with the
following:
15.8.4.2.1 Copper Tube. Copper tubing shall comply with the following:
(1) ASTM B 819, Standard Specification for Seamless Copper Tube for Medical Gas Systems,
Type L or K.
(2) ASTM B 88, Standard Specification for Seamless Copper Water Tube, Type L or K
(3) ASTM B 280, Standard Specification for Seamless Copper Tubing for Air Conditioning
and Refrigeration Field Service, ACR tube (O.D. size)
(4) Copper tube shall be hard temper or annealed (soft temper).
15.8.4.2.2 Copper Fittings. Copper fittings shall comply with the following:
(1) Brazed or soldered fittings conforming to ASME B16.22, Wrought Copper and Copper
Alloy Solder-Joint Pressure Fittings
(2) Brazed fittings conforming to ASME B16.50, Wrought Copper and Copper Alloy Braze-
Joint Pressure Fittings
(3) Brazed fittings conforming to ASME B16.22 with socket depths equal to or greater than
braze-joint pressure fittings conforming to ANSI/ASME B16.50.
(4) Flared fittings conforming to ASME B16.26, Cast Copper Alloy Fittings for Flared Copper
Tubes
(5) Compression fittings (3/4 in. maximum size)
15.8.4.2.3 Joints for Copper Piping. Joints in copper tubing shall be in accordance with the
following:
(1) Joints shall be brazed, soldered, threaded, flared, or the compression type.
(2) Where joints are brazed, they shall comply with the requirements of 15.10.
(3) Soldered joints shall be made in accordance with ASTM B 828, Standard Practice for
Making Capillary Joints by Soldering of Copper and Copper Alloy Tube and Fittings,
using a “lead-free” solder filler metal containing not more than 0.2 percent lead by volume
that complies with ASTM B 32, Standard Specification for Solder Metal.
15.8.4.3 PVC Plastic Piping. PVC plastic piping under 15.8.4 shall be in accordance with the
following:
(1) PVC plastic pipe shall be Schedule 40 or Schedule 80, conforming to ASTM D 1785,
Standard Specification for Poly (Vinyl Chloride) (PVC) Plastic Pipe, Schedules 40, 80, and
120.
(2) PVC plastic fittings shall be Schedule 40 or Schedule 80 to match the pipe, conforming to
ASTM D 2466, Standard Specification for Poly (Vinyl Chloride) (PVC) Plastic Pipe
Fittings, Schedule 40, or ASTM D 2467, Standard Specification Poly (Vinyl Chloride)
(PVC) Plastic Pipe Fittings, Schedule 80.
(3) Joints in PVC plastic piping shall be solvent-cemented in accordance with ASTM D 2672,
Standard Specification for Joints for IPS PVC Pipe Using Solvent Cement.
15.8.4.4 CPVC Plastic Piping. CPVC plastic piping under 15.8.4 shall be in accordance with
the following:
(1) CPVC IPS plastic pipe shall be Schedule 40 or Schedule 80, conforming to ASTM F 441,
Standard Specification for Chlorinated Poly (Vinyl Chloride) (CPVC) Plastic Pipe,
Schedules 40 and 80.
(2) CPVC IPS plastic fittings shall be Schedule 40 or Schedule 80 to match the pipe,
conforming to ASTM F 438, Standard Specification for Socket-Type Chlorinated Poly
(Vinyl Chlorinated) (CPVC) Plastic Pipe Fittings, Schedule 40, or ASTM F 439, Standard
Specification for Chlorinated Poly (Vinyl Chlorinated) (CPVC) Plastic Pipe Fittings,
Schedule 80.
(3) CPVC CTS plastic pipe and fittings ½ in. through 2 in. size shall be SDR 11, conforming to
ASTM D 2846, Standard Specification for Chlorinated Poly (Vinyl Chloride) (CPVC)
Plastic Hot- and Cold-Water Distribution Systems.
(4) Solvent cement for joints in CPVC plastic piping shall comply with ASTM F 493, Solvent
Cements for CPVC Pipe and Fittings.
15.8.5 Piping for Nitrogen.
15.8.5.1 In Category 1 Facilities. Nitrogen piping in Category 1 dental facilities shall comply
with 15.8.2, including cleaning for oxygen service.
15.8.5.2 In Category 2 Facilities. Nitrogen piping in Category 2 dental facilities shall comply
with 15.8.3.
15.9 Installation of Gas and Vacuum Piping.
15.9.1 General.
15.9.1.1 Gas and vacuum piping systems shall be as listed in 15.4.
15.9.1.2 Piping materials shall be as listed in 15.8.
15.9.2 Pipe Sizing. Piping systems shall be designed and sized to deliver the required flow
rates at the utilization pressures.
15.9.3 Minimum Pipe Sizes. The minimum size of the following piping shall be as follows:
(1) Category 1 medical gas and support gases shall not be less than (NPS 1/2 in.) (5/8 in. O.D.)
size.
(2) Category 1 dental-surgical vacuum and WAGD shall not be less than (NPS 3/4 in.) (7/8 in.
O.D.) size.
(3) Category 2 oxygen piping shall be not less than DN10 (NPS 3/8 in.) (1/2 in. O.D.) size.
(4) Category 2 nitrous oxide piping shall be not less than DN8 (NPS 1/4 in.) (3/8 in. O.D.)
size.
15.9.4 Location of Piping. Piping shall not be located where subject to contact with oil.
15.9.5 Protection of Piping.
15.9.5.1 Piping shall be protected against freezing, corrosion, and physical damage.
15.9.5.2 Piping exposed in corridors and other locations where subject to physical damage from
the movement of equipment shall be protected.
15.9.6 Pipe Support.
15.9.6.1 Piping shall be supported from the building structure.
15.9.6.2 Hangers and supports shall comply with and be installed in accordance with MSS SP-
58, Pipe Hangers and Supports - Materials, Design, Manufacture, Selection, Application, and
Installation.
15.9.6.3 Hangers and supports shall be sized for the tube or pipe being supported.
15.9.6.4 In potentially damp locations, copper tube hangers and supports that are in contact with
the tube shall be plastic-coated or otherwise electrically insulated from the tube.
15.9.6.5 The maximum support spacing for copper tube shall be in accordance with Table
15.9.6.5.
Table 15.9.6.5 Maximum Copper Tube Support Spacing
Hanger Spacing
Pipe Size mm ft
DN8 (NPS 1/4) (3/8 in. O.D.) 1520 5
DN10 (NPS 3/8) (1/2 in. O.D.) 1830 6
DN15 (NPS 1/2) (5/8 in. O.D.) 1830 6
DN20 (NPS 3/4) (7/8 in. O.D.) 2130 7
DN25 (NPS 1) (1-1/8 in. O.D.) 2440 8
DN32 (NPS 1-1/4) (1-3/8 in. O.D.) 2740 9
DN40 (NPS 1-1/2) (1-5/8 in. O.D.) and larger 3050 10
Vertical risers, all sizes, every floor, but not to
exceed
4570 15
15.9.6.6 The maximum support spacing for plastic pipe shall be in accordance with Table
15.9.6.6.
Table 15.9.6.6 Maximum Plastic Pipe Support Spacing
Hanger Spacing
Pipe Size mm ft
DN15 (NPS 1/2) (5/8 in. O.D.) 1220 4.00
DN20 (NPS 3/4) (7/8 in. O.D.) 1220 4.00
DN25 (NPS 1) (1-1/8 in. O.D.) 1320 4.33
DN32 (NPS 1-1/4) (1-3/8 in. O.D.) 1320 4.33
DN40 (NPS 1-1/2) (1-5/8 in. O.D.) 1420 4.66
DN50 (NPS 2) (2-3/8 in. O.D.) 1420 4.66
DN65 (NPS 2-1/2) (2-7/8 in. O.D.) and larger 1520 5.00
Vertical risers, all sizes, every floor, but not to
exceed
3040 10.00
15.9.7 Underground Piping Outside of Buildings.
15.9.7.1 Buried piping outside of buildings shall be installed below the local level of frost
penetration.
15.9.7.2 The installation procedure for underground piping shall prevent physical damage to the
piping while being backfilled.
15.9.7.3 If the underground piping is protected by a conduit, cover, or other enclosure, the
following requirements shall be met:
(1) Access during construction shall be provided at the joints for visual inspection and leak
testing.
(2) The conduit, cover, or enclosure shall be self-draining and not retain groundwater in
prolonged contact with copper tubing.
15.9.7.4 Buried piping that will be subject to surface loads shall be buried at a depth that will
protect the piping or its enclosure, or both, from excessive stresses.
15.9.7.5 The minimum backfill cover above the top of the piping or its enclosure shall be 900
mm (36 in.), except that the minimum cover shall be permitted to be reduced to 450 mm (18 in.)
where there is no potential for damage from surface loads or surface conditions.
15.9.7.6 Trenches shall be excavated so that the piping or its enclosure has firm, substantially
continuous bearing on the bottom of the trench.
15.9.7.7 Backfill shall be clean, free from material that can damage the pipe, and be compacted.
15.9.7.8 A continuous warning tape or marker shall be placed immediately above the piping or
its enclosure to clearly identify the pipeline by specific name.
15.9.7.9 A continuous warning means shall also be placed above the pipeline at approximately
one-half the depth of burial.
15.9.7.10 Where buried piping is extended into a building through a wall sleeve, the outdoor
end of the sleeve shall be sealed watertight to prevent the entrance of groundwater into the
building.
15.9.8 Underground Piping Within Buildings.
15.9.8.1 The installation procedure for underground piping shall prevent physical damage to the
piping while being backfilled.
15.9.8.2 If the underground piping is protected by a conduit, cover, or other enclosure, access
shall be provided at the joints during construction for visual inspection and leak testing.
15.9.8.3 The piping shall be backfilled with clean sand or gravel.
15.9.9 Piping Within Floor Slabs Prohibited. Dental gas and vacuum piping shall not be
installed within floor slabs.
15.9.10 Hose and Flexible Connectors.
15.9.10.1 Hose and flexible connectors, both metallic and nonmetallic, shall be no longer than
necessary and shall not penetrate or be concealed in walls, floors, ceilings, or partitions.
15.9.10.2 Hose and flexible connectors, metallic or nonmetallic, shall have a minimum burst
gauge pressure of 6895 kPa (1000 psi).
15.9.10.3 Medical gas hose and flexible connectors shall be oxygen compatible.
15.9.10.4 Hose and flexible connectors shall be clearly identified as to the gas content.
15.9.10.5 Hose and flexible connectors for dental medical gases shall be gas-specific and not be
permitted to conduct any other gas, gas mixture, or liquid.
15.9.11 Gas/Vacuum Outlets/Inlets.
15.9.11.1 Each gas/vacuum outlet/inlet shall be gas-specific.
15.9.11.2 Gas outlets shall consist of a primary and a secondary valve (or assembly).
15.9.11.3 Vacuum inlets shall consist of a primary valve (or assembly) and shall be permitted to
include a secondary valve (or assembly).
15.9.11.4 Each gas outlet/inlet shall be legibly identified.
15.9.11.5 Threaded outlets/inlets shall be non-interchangeable connections complying with the
mandatory requirements of CGA V-5, Diameter-Index Safety System (Noninterchangeable Low
Pressure Connections for Medical Gas Applications).
15.9.11.6 Factory-installed copper inlet tubes on station outlets extending no further than 205
mm (8 in.) from the body of the terminal shall be not less than DN8 (NPS 1⁄4) (3⁄8 in. O.D.) size,
with 8 mm (0.3 in.) minimum inside diameter.
15.9.11.7 Factory-installed copper outlet tubes on station inlets extending no further than 205
mm (8 in.) from the body of the terminal shall be not less than DN10 (NPS 3⁄8) (1⁄2 in. O.D.)
size, with 10 mm (0.4 in.) minimum inside diameter.
15.9.12 Piped Outlets for Connection to Gas Dispensing Devices.
15.9.12.1 Piped outlets for connection to dental medical gas dispensing devices shall be gas-
specific.
15.9.12.2 Piped outlets shall include a check valve and be capped until connected to the gas
dispensing device.
15.9.12.3 Where piped outlets are connected to gas dispensing devices by flexible tubing, the
tubing shall have a minimum burst gauge pressure of 6895 kPa (1000 psi) and be rated for
oxygen use.
15.9.12.4 All connections between piped outlets and gas dispensing devices shall be gas-
specific to prevent cross-connections.
15.9.13 Emergency Shutoff Valves.
15.9.13.1 Where a central dental medical gas supply is remote from a single treatment facility,
the main supply line shall be provided with an emergency shutoff valve so located in the single
treatment facility as to be accessible from all use-point locations in an emergency.
15.9.13.2 Where a central dental medical gas supply system supplies two treatment facilities,
each facility shall be provided with an emergency shutoff valve so located in that treatment
facility as to be accessible from all use-point locations in an emergency.
15.9.13.3 Emergency shutoff valves shall be labeled to indicate the gas controlled and shall shut
off only the gas to the treatment facility that they serve.
15.9.13.4 A remotely activated shutoff valve at a gas supply manifold shall not be used for
emergency shutoff. For clinical purposes, such a remote valve actuator shall not fail-closed in
the event of a loss of electric power. Where remote actuators are the type that fail-open, it shall
be mandatory that cylinder shutoff valves be closed whenever the system is not in use.
15.10 Brazing Copper Tubing
15.10.1 Qualification of Brazing Procedures and Brazers.
15.10.1.1 Brazing procedures and brazer performance for the installation of dental piping shall
be in accordance with either Section IX, “Welding and Brazing Qualifications,” of the ASME
Boiler and Pressure Vessel Code, or AWS B2.2, Standard for Brazing Procedure and
Performance Qualification, both as modified by 15.10.
15.10.1.2 Brazers shall be qualified by visual examination of the test coupons followed by
sectioning.
15.10.1.3 The brazing procedure specification shall address cleaning, joint clearance, overlap,
internal purge gas, purge gas flow rate, and filler metal.
15.10.1.4 The brazing procedure qualification record and the record of brazer performance
qualification shall document the filler metal used, cleaning, joint clearance, overlap, internal
purge gas and flow rate during brazing of the coupon, and the absence of internal oxidation in the
completed coupon.
15.10.1.5 Brazing procedures qualified by a technically competent group or agency shall be
permitted under the following conditions:
(1) The brazing procedure specification and the procedure qualification record meet the
requirements of this code.
(2) The employer obtains a copy of both the brazing procedure specification and the supporting
qualification record from the group or agency and signs and dates these records, thereby
accepting responsibility for the qualifications that were performed by the group or agency.
(3) The employer qualifies at least one brazer following each brazing procedure specification
used.
15.10.1.6 An employer shall be permitted to accept brazer qualification records of a previous
employer under the following conditions:
(1) The brazer has been qualified following the same procedure that the new employer uses, or
an equivalent procedure.
(2) The new employer obtains a copy of the record of brazer performance qualification tests
from the previous employer and signs and dates these records, thereby accepting
responsibility for the qualifications performed by the previous employer.
15.10.1.7 Performance qualifications of brazers shall remain in effect indefinitely, unless the
brazer does not braze with the qualified procedure for a period exceeding 6 months or there is a
specific reason to question the ability of the brazer.
15.10.2 Brazed Joints.
15.10.2.1 Brazed tube joints shall be of the socket type.
15.10.2.2 Brazed joints shall be made using a brazing alloy that exhibits a melting temperature
in excess of 538°C (1000°F) to retain the integrity of the piping system in the event of fire
exposure.
15.10.2.3 Filler metals shall bond with and be metallurgically compatible with the base metal
being joined.
15.10.2.4 Filler metals shall comply with ANSI/AWS A5.8, Specification for Filler Metals for
Brazing and Braze Welding.
15.10.2.5 Copper-to-copper joints shall be brazed using a copper-phosphorus or copper-
phosphorus-silver brazing filler metal (BCuP series) without flux.
15.10.2.6 Joints to be brazed in place shall be accessible for necessary preparation, assembly,
heating, filler application, cooling, cleaning, and inspection.
15.10.3 Cutting Tube Ends.
15.10.3.1 Tube ends shall be cut square using a sharp tubing cutter to avoid deforming the tube.
15.10.3.2 The cutting wheels on tubing cutters shall be free from grease, oil, or other lubricant
not recommended for oxygen service.
15.10.3.3 The cut ends of the tube shall be rolled smooth or deburred with a sharp, clean
deburring tool, taking care to prevent chips from entering the tube.
15.10.4 Cleaning Joints for Brazing.
15.10.4.1 The interior surfaces of tubes, fittings, and other components that are cleaned for
oxygen service shall be stored and handled to avoid contamination prior to assembly and
brazing.
15.10.4.2 The exterior surfaces of tube ends shall be cleaned prior to brazing to remove any
oxides and surface dirt and to roughen the surfaces to prepare them for brazing.
15.10.4.3 Nonabrasive pads shall be used to clean the exterior surfaces of tube ends.
15.10.4.4 The use of steel wool, sand cloth, or wire brushes shall be prohibited.
15.10.4.5 The cleaning process shall not result in grooving the surfaces to be joined.
15.10.4.6 After being abraded, the surfaces shall be wiped using a clean, lint-free white cloth.
15.10.4.7 Tubes, fittings, valves, and other components shall be visually examined internally
before being joined to verify that they have not become contaminated for oxygen service and that
they are free of obstructions or debris.
15.10.4.8 Material that has become contaminated internally and is not clean for oxygen service
shall not be installed.
15.10.4.9 Joints shall be brazed within 8 hours after being cleaned for brazing.
15.10.5 Brazing Dissimilar Metals.
15.10.5.1 Flux shall only be used when brazing dissimilar metals, such as copper and bronze or
brass, using a silver brazing filler metal (BAg series).
15.10.5.2 Cast metals shall not be field-brazed.
15.10.5.3 Surfaces shall be cleaned for brazing in accordance with 15.10.4.
15.10.5.4 Flux shall be applied sparingly to minimize contamination of the inside of the tube
with flux.
15.10.5.5 The flux shall be applied and worked over the cleaned surfaces to be brazed using a
stiff bristle brush to ensure complete coverage and wetting of the surfaces with flux.
15.10.5.6 Where possible, short Categorys of copper tube shall be brazed onto the non-copper
component, and the interior of the subassembly shall be cleaned of flux prior to installation in the
piping system.
15.10.5.7 On joints DN20 (NPS 3/4) (7/8 in. O.D.) size and smaller, flux-coated brazing rods
shall be permitted to be used in lieu of applying flux to the surfaces to be joined.
15.10.6 Nitrogen Purge.
15.10.6.1 While being brazed, joints shall be continuously purged with oil-free, dry nitrogen NF
to prevent the formation of copper oxide on the inside surface of the joint.
15.10.6.2 The source of the nitrogen purge gas shall be monitored, and the installer shall be
audibly alerted when the content is low.
15.10.6.3 The nitrogen purge gas flow rate shall not be high enough to produce a positive
pressure in the piping system.
15.10.6.4 The nitrogen purge gas flow shall be controlled by the use of both a pressure
regulator and a flowmeter, or a combination thereof.
15.10.6.5 Pressure regulators alone shall not be used to control nitrogen purge gas flow rates.
15.10.6.6 During and after installation, openings in the piping system shall be kept capped or
plugged to maintain a nitrogen atmosphere within the piping and to prevent debris or other
contaminants from entering the system.
15.10.6.7 While a joint is being brazed, a discharge opening shall be provided on the opposite
side of the joint from where the nitrogen purge gas is being introduced.
15.10.6.8 The flow of nitrogen purge gas shall be maintained until the joint is cool to the touch.
15.10.6.9 After the joint has cooled, the purge discharge opening shall be plugged or capped to
prevent contamination of the inside of the tube and maintain the nitrogen atmosphere within the
piping system.
15.10.7 Assembling and Heating Brazed Joints.
15.10.7.1 Tube ends shall be inserted either fully into the depth of the fitting socket or to a
mechanically limited depth that is not less than the minimum cup depth (overlap) specified in
ANSI/ASME B16.50, Standard Specification for Wrought Copper and Copper Alloy Braze-Joint
Pressure Fittings.
15.10.7.2 Where flux is permitted, joints shall be heated slowly until the flux has liquefied.
15.10.7.3 After flux has liquefied, or where flux is not permitted to be used, the joint shall be
heated quickly to the brazing temperature, taking care not to overheat the joint.
15.10.7.4 Techniques for heating joints, applying the brazing filler metal, and making the
horizontal, vertical, and large-diameter joints shall be as described in sections on applying heat
and brazing horizontal and vertical joints in Chapter VIII, “Brazed Joints,” in the CDA Copper
Tube Handbook.
15.10.8 Inspection of Brazed Joints.
15.10.8.1 After brazing, the outside of all joints shall be cleaned by washing with water and a
wire brush to remove any residue and allow clear visual inspection of the joint.
15.10.8.2 Where flux has been used, the wash water shall be hot.
15.10.8.3 Each joint shall be visually inspected after cleaning the outside surfaces.
15.10.8.4 Joints exhibiting the following conditions shall not be permitted:
(1) Flux or flux residue (when flux or flux-coated BAg rods are used with dissimilar metals)
(2) Base metal melting or erosion
(3) Unmelted filler metal
(4) Failure of the filler metal to be clearly visible all the way around the joint at the interface
between the socket and the tube
(5) Cracks in the tube or component
(6) Cracks in the filler metal
(7) Failure of the joint to hold the test pressure under the installer-performed initial pressure test
(see 15.12.4.5) and standing pressure test (see 15.12.4.7)
15.10.8.5 Joints that are identified as defective under conditions specified in 15.10.8.4 (2) or (5)
shall be replaced.
15.10.8.6 Joints that are found to be defective under conditions specified in 15.10.8.4 (1), (3),
(4), (6), or (7) shall be permitted to be repaired, except that no joint shall be reheated more than
once before being replaced.
15.11 Warning Systems
15.11.1 General. Warning systems for Category 1, Category 2, and Category 3 dental facilities
shall comply with 15.11.
15.11.2 Category 1 Warning Systems
15.11.2.1 General. The warning systems in Category 1 dental facilities shall comply with
applicable requirements of 5.1.9 and as indicated below.
15.11.2.2 Master Alarm Panels.
15.11.2.2.1 A master alarm panel shall be located in the facility at a point of continuous
surveillance when the facility is in operation.
15.11.2.2.2 The master alarm panel shall indicate the following:
(1) oxygen supply pressure plus or minus 20% from normal
(2) nitrous oxide supply pressure plus or minus 20% from normal
(3) medical air supply pressure plus or minus 20% from normal
(4) nitrogen supply pressure plus or minus 20% from normal
(5) instrument air pressure plus or minus 20% from normal
(6) changeover of oxygen supply source
(7) changeover of nitrous oxide supply source
(8) changeover of medical air supply source
(9) changeover of nitrogen supply source
(10) changeover of instrument air source
(11) individual gas cylinder reserves less than one day's supply
(12) dental-surgical vacuum at or below 300 mm (12 in.) gauge HgV
(13) medical air dew point greater than +2°C (+35°F)
(14) instrument air dew point greater than -30°C (-22°F)
(15) WAGD low alarm
(16) a local alarm panel with one or more alarms
15.11.2.3 Area Alarm Panels.
15.11.2.3.1 An area alarm panel shall be centrally located where two or more treatment areas
are supplied by the same zoned dental gas and vacuum piping.
15.11.2.3.2 Area alarm panels shall indicate the following:
(1) oxygen supply pressure plus or minus 20% from normal
(2) nitrous oxide supply pressure plus or minus 20% from normal
(3) medical air supply pressure plus or minus 20% from normal
(4) nitrogen supply pressure plus or minus 20% from normal
(5) instrument air pressure plus or minus 20% from normal
(6) dental-surgical vacuum at or below 300 mm (12 in.) gauge HgV
(7) WAGD low alarm
15.11.2.4 Local Alarms.
15.11.2.4.1 Local alarms shall be located in source equipment control panels or separate control
panels in the equipment rooms for source equipment.
15.11.2.4.2 Local alarms shall include the following:
(1) medical air backup or lag compressor in operation
(2) instrument air backup or lag compressor in operation
(3) dental-surgical backup or lag vacuum pump in operation
(4) medical air carbon monoxide 10 ppm or higher
(5) medical air dew point greater than +2°C (+35°F)
(6) instrument air dew point greater than -30°C (-22°F)
(7) liquid ring air compressor high receiver water level
(8) liquid ring air compressor high separator water
(9) water-cooled compressor high receiver water level
(10) non-water air compressor high discharge air temperature
(11) lag WAGD producer in use
15.11.3 Category 2 Warning Systems.
15.11.3.1 General.
15.11.3.1.1 The warning systems in Category 2 dental facilities shall comply with applicable
requirements of 5.2.9 and as indicated below.
15.11.3.1.2 The master, area, and local alarm functions shall be permitted to be provided by a
single alarm panel, as indicated in 5.2.9.
15.11.3.2 Master Alarm Panels.
15.11.3.2.1 A master alarm panel shall be located in the facility at a point of continuous
surveillance when the facility is in operation.
15.11.3.2.2 The master alarm panel shall indicate the following:
(1) oxygen supply pressure plus or minus 20% from normal
(2) nitrous oxide supply pressure plus or minus 20% from normal
(3) nitrogen supply pressure plus or minus 20% from normal
(4) dental compressed air pressure plus or minus 20% from normal
(5) changeover of oxygen supply source
(6) changeover of nitrous oxide supply source
(7) changeover of nitrogen supply source
(8) changeover of dental compressed air source
(9) individual gas cylinder reserves less than one day's supply
(10) dental vacuum at or below 300 mm (12 in.) gauge HgV
(11) a local alarm panel with one or more alarms
15.11.3.3 Area Alarm Panels.
15.11.3.3.1 An area alarm panel shall be centrally located where two or more treatment areas
are supplied from the same zoned dental gas and vacuum piping.
15.11.3.3.2 Area alarm panels shall indicate the following:
(1) oxygen supply pressure plus or minus 20% from normal
(2) nitrous oxide supply pressure plus or minus 20% from normal
(3) nitrogen supply pressure plus or minus 20% from normal
(4) dental compressed air pressure plus or minus 20% from normal
(5) dental vacuum at or below 300 mm (12 in.) gauge HgV
15.11.3.4 Local Alarms.
15.11.3.4.1 Local alarms shall be located in source equipment control panels or separate control
panels in the equipment rooms for source equipment.
15.11.3.4.2 Local alarms shall include the following
(1) dental compressed air backup or lag compressor in operation
(2) dental vacuum backup or lag vacuum pump in operation
(3) liquid ring air compressor high receiver water level
(4) liquid ring air compressor high separator water
(5) water-cooled compressor high receiver water level
(6) non-water air compressor high discharge air temperature
15.11.4 Category 3 Warning Systems.
15.11.4.1 General.
15.11.4.1.1 The warning systems in Category 3 dental facilities shall comply with applicable
requirements of 15.11.4.
15.11.4.1.2 The master, area, and local alarm functions shall be permitted to be provided by a
single alarm panel, as indicated in 5.2.9.
15.11.4.2 Master Alarm Panels.
15.11.4.2.1 A master alarm panel shall be located in the facility at a point of continuous
surveillance when the facility is in operation.
15.11.4.2.2 The master alarm panel shall indicate the following:
(1) nitrogen supply pressure plus or minus 20% from normal
(2) dental compressed air pressure plus or minus 20% from normal
(3) changeover of nitrogen supply source
(4) changeover of dental compressed air source
(5) individual gas cylinder reserves less than one day's supply
(6) dental vacuum at or below 300 mm (12 in.) gauge HgV
(7) a local alarm panel with one or more alarms
15.11.4.3 Area Alarm Panels.
15.11.4.3.1 An area alarm panel shall be centrally located where two or more treatment areas
are supplied from the same zoned dental gas and vacuum piping.
15.11.4.3.2 Area alarm panels shall indicate the following:
(1) nitrogen supply pressure plus or minus 20% from normal
(2) dental compressed air pressure plus or minus 20% from normal
(3) dental vacuum at or below 300 mm (12 in.) gauge HgV
15.11.4.4 Local Alarms.
15.11.4.4.1 Local alarms shall be located in source equipment control panels or separate control
panels in the equipment rooms for source equipment.
15.11.4.4.2 Local alarms shall include the following:
(1) dental vacuum backup or lag vacuum pump in operation
(2) liquid ring air compressor high receiver water level
(3) liquid ring air compressor high separator water
(4) water-cooled compressor high receiver water level
(5) non-water air compressor high discharge air temperature
15.12 Testing and Verification.
15.12.1 General.
15.12.1.1 Inspection and testing shall be performed on all new piped dental gas and vacuum
systems, additions, renovations, temporary installations, or repaired systems to ensure, by a
documented procedure, that the following have been completed:
(1) all applicable provisions of this code have been adhered to,
(2) system integrity has been achieved or maintained,
(3) the piping systems are ready for testing and verification, and
(4) the piping systems are performing properly in accordance with their design requirements.
15.12.1.2 The inspection and testing reports shall be submitted directly to the party that
contracted for the testing, who shall submit the reports through channels to the responsible
authority and any others that are required.
15.12.1.3 Reports shall contain detailed listings of all findings and results.
15.12.1.4 The responsible facility authority shall review the inspection and testing records prior
to the use of any systems to ensure that all findings and results of the inspection and testing have
been successfully completed before use.
15.12.1.5 All documentation pertaining to inspections and testing shall be maintained on-site
within the facility.
15.12.2 Required Testing and Verification.
15.12.2.1 Category 1 Facilities. All dental gas and vacuum piping systems indicated in 15.5.1
for Category 1 facilities shall be initially tested in accordance with 15.12.4 and verified in
accordance with 15.12.6.
15.12.2.2 Category 2 Facilities. All dental gas and vacuum piping systems indicated in 15.5.2
for Category 2 facilities shall be initially tested in accordance with 15.12.4. The support gas
systems and vacuum systems (dental compressed air or nitrogen, dental vacuum, and
scavenging) shall be final tested in accordance with 15.12.5. The oxygen and nitrous oxide
piping systems shall be verified in accordance with 15.12.6.
15.12.2.3 Category 3 Facilities. All support gas and vacuum piping systems indicated in
15.5.3 for Category 3 facilities shall be initially tested in accordance with 15.12.4 and final tested
in accordance with 15.12.5.
15.12.3 Qualification of System Testers and Verifiers.
15.12.3.1 Individuals who perform the initial and final tests of the dental gas and vacuum
piping systems shall be certified to ASSE 6010 - Professional Qualifications Standard for
Medical Gas Systems Installers or verifiers who comply with 15.12.3.2.
15.12.3.2 Individuals who verify the dental gas and vacuum piping systems shall be certified to
ASSE 6030 - Professional Qualifications Standard for Medical Gas Systems Verifiers.
15.12.4 Initial Testing of Piping Systems.
15.12.4.1 General.
15.12.4.1.1 The initial tests required by 15.12.4 shall be performed prior to either the final tests
listed in 15.12.5 or the verification tests listed in 15.12.6.
15.12.4.1.2 The test gas for gas piping systems shall be oil-free, dry nitrogen NF.
15.12.4.1.3 Where manufactured assemblies are to be installed, the initial tests required by
15.12.4 shall be performed as follows:
(1) after completion of the distribution piping, but before the standing pressure test.
(2) prior to installation of manufactured assemblies supplied through flexible hose or flexible
tubing.
(3) for all station outlets/inlets on installed manufactured assemblies supplied through copper
tubing.
15.12.4.1.4 Where plastic vacuum and plastic scavenging piping systems are installed, they
shall be visually inspected for cross-connections to positive pressure systems before applying
positive test pressures to the copper piping systems.
15.12.4.1.5 Where brazed joints in copper tubing are found to be defective, they shall be
repaired if permitted by 15.10.8.6 or replaced if required by 15.10.8.5, and retested. The piping
shall be repurged if necessary.
15.12.4.1.6 During the process of initial testing, the proper identification and labeling of the gas
and vacuum piping shall be checked.
15.12.4.2 Initial Piping Blowdown. Piping in dental gas and vacuum distribution systems
shall be blown clear by means of oil-free, dry nitrogen NF after installation of the distribution
piping but before installation of station outlet/inlet rough-in assemblies and other system
components (e.g., pressure/vacuum alarm devices, pressure/vacuum indicators, pressure relief
valves, manifolds, source equipment).
15.12.4.3 Initial Cross-Connection Test for Plastic Vacuum and Plastic Scavenging Piping
Systems.
15.12.4.3.1 Plastic piping shall be tested before copper piping.
15.12.4.3.2 Tests shall be conducted to determine that no cross-connections exist between any
plastic vacuum piping systems or plastic scavenging piping systems and any copper piping
systems.
15.12.4.3.3 The vacuum or scavenging source shutoff valves for the vacuum or scavenging
piping systems shall remain closed during the tests, unless they are being used for the cross-
connection test vacuum source.
15.12.4.3.4 The cross-connection test vacuum shall be a minimum of 300 mm (12 in.) HgV.
15.12.4.3.5 The source of test vacuum shall be connected only to the vacuum or scavenging
piping system being tested.
15.12.4.3.6 All individual gas system outlets and vacuum or scavenging system inlets shall be
checked to determine that the test vacuum is only present in the vacuum or scavenging piping
system being tested.
15.12.4.3.7 The cross-connection tests shall be repeated for each installed vacuum and
scavenging system with plastic piping.
15.12.4.3.8 Any cross-connections shall be removed and the associated piping repaired and leak
tested.
15.12.4.3.9 The proper labeling and identification of system outlets/inlets shall be confirmed
during the initial tests.
15.12.4.4 Initial Cross-Connection Test for Copper Piping Systems.
15.12.4.4.1 Copper piping shall not be tested before after any plastic piping.
15.12.4.4.2 It shall be determined that no cross-connections exist between the various gas and
vacuum piping systems.
15.12.4.4.3 All piping systems shall be reduced to atmospheric pressure.
15.12.4.4.4 Sources of test gas shall be disconnected from all piping systems except for the one
system being tested.
15.12.4.4.5 The system under test shall be charged with oil-free, dry nitrogen NF to a gauge
pressure of 345 kPa (50 psi).
15.12.4.4.6 After the installation of the individual faceplates with appropriate adapters
matching outlet/inlet labels, each individual outlet/inlet in each installed gas and vacuum piping
system shall be checked to determine that the test gas is being dispensed only from the piping
system being tested.
15.12.4.4.7 The initial cross-connection test in 15.12.4.4 shall be repeated for each installed gas
and vacuum piping system with copper piping.
15.12.4.4.8 Any cross-connections shall be removed and the associated piping repaired and leak
tested.
15.12.4.4.9 The proper labeling and identification of system outlets/inlets shall be confirmed
during these tests.
15.12.4.5 Initial Pressure Test.
15.12.4.5.1 Each Category of the piping in positive pressure gas systems and copper vacuum
systems shall be pressure tested. Plastic vacuum and plastic scavenging piping shall not be
pressure tested.
15.12.4.5.2 Initial pressure tests shall be conducted as follows:
(1) after blowdown of the distribution piping
(2) after installation of station outlet/inlet rough-in assemblies
(3) prior to the installation of components of the distribution piping system that would be
damaged by the test pressure (e.g., pressure/vacuum alarm devices, pressure/vacuum
indicators, line pressure relief valves)
15.12.4.5.3 The source shutoff valve shall remain closed during the pressure tests.
15.12.4.5.4 The test pressure for pressure gas piping and copper vacuum piping shall be 1.5
times the system operating pressure but not less than a gauge pressure of 1035 kPa (150 psi).
15.12.4.5.5 The test pressure shall be maintained until each joint has been examined for leakage
by means of a leak detectant that is safe for use with oxygen and does not contain ammonia.
15.12.4.5.6 Any leaks shall be repaired (if permitted) or replaced (if required) by the installer,
and retested.
15.12.4.6 Initial Piping Purge Test.
15.12.4.6.1 The outlets in each gas piping system shall be purged to remove any particulate
matter from the distribution piping.
15.12.4.6.2 Using appropriate adapters, each outlet shall be purged with an intermittent high-
volume flow of test gas until the purge produces no discoloration in a clean white cloth.
15.12.4.6.3 The purging shall be started at the closest outlet to the piping shutoff valve and
continue to the furthest outlet from the shutoff valve.
15.12.4.7 Standing Pressure Test for Positive Pressure Gas Piping.
15.12.4.7.1 After successful completion of the initial pressure tests in 15.12.4.5, the gas
distribution piping shall be subject to a standing pressure test.
15.12.4.7.2 Tests shall be conducted after the final installation of station outlet valve bodies,
faceplates, and other distribution system components (e.g., pressure alarm devices, pressure
indicators, line pressure relief valves, manufactured assemblies, hose).
15.12.4.7.3 The source valve shall be closed during this test.
15.12.4.7.4 The piping systems shall be subjected to 24-hour standing pressure tests using oil-
free, dry nitrogen NF.
15.12.4.7.5 Test pressures shall be 20 percent above the normal system operating line pressure.
15.12.4.7.6 At the conclusion of the tests, there shall be no change in the test pressure except
that attributed to specific changes in ambient temperature.
15.12.4.7.7 Leaks shall be located, repaired (if permitted) or replaced (if required) by the
installer, and retested. The piping shall be repurged if necessary.
15.12.4.7.8 The 24-hour standing pressure tests shall be witnessed by the authority having
jurisdiction or its designee. A form indicating that these tests have been performed and witnessed
shall be provided to the verifier at the start of the verification tests in 15.12.6.
15.12.4.8 Standing Vacuum Test for Vacuum Piping.
15.12.4.8.1 After successful completion of the initial pressure tests in 15.12.4.5, vacuum
distribution piping, including scavenging and WAGD, shall be subjected to a standing vacuum
test.
15.12.4.8.2 Tests shall be conducted after installation and connection of all components of the
vacuum system.
15.12.4.8.3 The piping systems shall be subjected to a 24-hour standing vacuum test.
15.12.4.8.4 Test pressure shall be between 300 mm (12 in.) HgV and full vacuum.
15.12.4.8.5 During the test, the source of test vacuum shall be disconnected from the piping
system.
15.12.4.8.6 At the conclusion of the test, there shall be no change in the vacuum pressure other
than that attributed to changes of ambient temperature.
15.12.4.8.7 The 24-hour standing vacuum test of the vacuum system shall be witnessed by the
authority having jurisdiction or its designee. A form indicating that this test has been performed
and witnessed shall be provided to the verifier at the start of the verification tests required in
15.12.6.
15.12.4.8.8 Any leaks shall be located, repaired (if permitted) or replaced (if required) by the
installer, and retested.
15.12.5 Final Testing of Piping Systems
15.12.5.1 General.
15.12.5.1.1 The dental gas and vacuum piping systems requiring final testing shall be as
indicated in 15.12.2 for the different dental facilities.
15.12.5.1.2 Required final testing of dental gas and vacuum piping systems shall be performed
only after all initial tests required in 15.12.4 have been completed.
15.12.5.1.3 The test gas shall be oil-free, dry nitrogen NF or the system gas or vacuum.
15.12.5.1.4 Where brazed joints in copper piping are found to be defective, they shall be
repaired if permitted by 15.10.8.6 or replaced if required by 15.10.8.5, and retested. The piping
shall be repurged if necessary.
15.12.5.1.5 During the process of final testing, the presence and proper labeling of source
equipment, station outlets/inlets, zone valve boxes, shutoff valves, and alarms shall be checked.
15.12.5.2 Final Cross-Connection Test. After the closing of walls and completion of the
initial tests for all gas and vacuum systems, it shall be determined that no cross-connections exist
between those piping systems being final tested and any other gas or vacuum piping system,
including those requiring verification in 15.12.6, using the following method:
(1) Test each piping system being final tested independently, starting with the vacuum and
scavenging systems first, and check that the test vacuum is present only at inlets of the
system being tested.
(2) Reduce all piping systems to atmospheric pressure.
(3) Operate the vacuum or scavenging system being final tested at the normal system vacuum,
using the source equipment.
(4) Test every gas outlet and vacuum or scavenging inlet using appropriate adapters to verify
that the test vacuum is present only at the vacuum inlets in the system being tested, and not
at any outlet or inlet of any other dental piping system.
(5) Shutoff the vacuum for the piping system being tested and slowly break the vacuum in its
piping, increasing its pressure to atmospheric.
(6) Test each vacuum and scavenging system requiring final testing until all are determined to
be free of cross-connections.
(7) Using oil-free, dry nitrogen NF or the system gas, pressurize the positive pressure gas
system being final tested to a gauge pressure of 345 kPa (50 psi).
(8) Test each gas outlet using appropriate adapters to verify that the test gas pressure is present
only at the outlets in the gas piping system being tested.
(9) After it has been determined that a gas piping system being final tested is free of cross-
connections, shutoff its test gas and reduce its piping to atmospheric pressure.
(10) Proceed to test each gas piping system requiring final testing until all are determined to be
free of cross-connections.
(11) Any cross-connections shall be removed and the associated piping repaired and tested for
leaks.
15.12.5.3 Final Standing Pressure Test. Each positive pressure gas piping system shall be
subjected to a 10-minute standing pressure test at operating line pressure using the following
procedures:
(1) After the system is filled with oil-free, dry nitrogen NF or the system gas, the source valve
shall be closed.
(2) The piping downstream of the valve shall show no decrease in pressure after 10 minutes.
(3) Any leaks shall be located, repaired (if permitted) or replaced (if required) by the installer,
and retested.
15.12.5.4 Final Standing Vacuum Test. Each vacuum, WAGD, and scavenging piping
system shall be subjected to a 10-minute standing vacuum test at operating line vacuum using the
following procedures:
(1) After the system has stabilized at the operating line vacuum, the source valve and any zone
valves shall be closed.
(2) The piping system upstream of the valves shall show no decrease in vacuum after 10
minutes.
(3) Any leaks shall be located, repaired (if permitted) or replaced (if required) by the installer,
and retested.
15.12.5.5 Final Piping Purge Test. In order to remove any traces of particulate matter
deposited in the piping as a result of construction, a heavy, intermittent purging of each positive
pressure gas pipeline shall be done.
15.12.5.5.1 The appropriate adapter shall be used and high purge rates shall be put on each
outlet.
15.12.5.5.2 After the purge is started, it shall be rapidly interrupted several times until the purge
produces no discoloration in a white cloth loosely held over the adapter during the purge.
15.12.5.5.3 In order to avoid possible damage to the outlet and its components, the test shall not
be conducted using any implement other than the correct adapter.
15.12.5.6 Final Tie-In Tests.
15.12.5.6.1 Prior to the connection of any new piping in extensions or additions to an existing
piping system, the final tests in 15.12.5 shall be successfully performed on the new work.
15.12.5.6.2 Each joint in the final connection between the new work and the existing system
shall be leak-tested, with the gas of system designation or vacuum at the normal operating
pressure or vacuum, by means of a leak detectant that is safe for use with oxygen and does not
contain ammonia.
15.12.5.6.3 For positive pressure gas piping, immediately after a final connection is made and
leak-tested, the specific altered zone and components in the immediate zone or area that is
downstream from the point or area of intrusion shall be purged in accordance with the applicable
requirements of 15.12.5.5.
15.12.6 Verification of Piping Systems.
15.12.6.1 General.
15.12.6.1.1 The dental gas and vacuum piping systems requiring initial testing and verification
shall be as indicated in 15.12.2 for the different dental facilities.
15.12.6.1.2 Required verification of dental gas and vacuum piping systems shall be performed
only after all initial tests required in 15.12.4 have been completed.
15.12.6.1.3 The test gas shall be oil-free, dry nitrogen NF or the system gas or vacuum where
permitted.
15.12.6.1.4 Verification shall be conducted by a party technically competent and experienced in
the field of medical gas and vacuum piping system testing and certified for ASSE 6030,
Professional Qualifications Standard for Medical Gas Systems Verifiers.
15.12.6.1.5 Verification shall be performed by a party other than the installing contractor.
15.12.6.1.6 All required verification tests shall be performed after installation of any
manufactured assemblies supplied through tubing or flexible hose.
15.12.6.1.7 Where there are multiple possible connection points for terminals, each possible
position shall be tested independently.
15.12.6.1.8 Where brazed joints in copper tubing are found to be defective, they shall be
repaired if permitted by 15.10.8.6 or replaced if required by 15.10.8.5, and retested. The piping
shall be repurged if necessary.
15.12.6.1.9 During the process of verification, the presence and proper labeling of source
equipment, station outlets/inlets, zone valve boxes, shutoff valves, and alarms shall be checked.
15.12.6.2 Verifier Standing Pressure Test. Positive pressure gas piping systems requiring
verification shall be subjected to a 10-minute standing pressure test at operating line pressure
using the following procedure:
(1) After the system is filled with nitrogen or the source gas, the source valve shall be closed.
(2) The piping system shall show no decrease in pressure after not less than 10 minutes.
(3) Any leaks shall be located, repaired (if permitted) or replaced (if required) by the installer,
and retested.
15.12.5.4 Verifier Standing Vacuum Test. Each vacuum and WAGD piping system shall be
subjected to a 10-minute standing vacuum test at operating line vacuum using the following
procedures:
(1) After the system has stabilized at the operating line vacuum, the source valve and any zone
valves shall be closed.
(2) The piping system upstream of the shutoff valves shall show no decrease in vacuum after
not less than 10 minutes.
(3) Any leaks shall be located, repaired (if permitted) or replaced (if required) by the installer,
and retested.
15.12.6.3 Verifier Tests for Cross-Connections. The piping systems shall be tested for cross-
connections between the systems by either individual pressurization (15.12.6.3.1) or pressure
differential (15.12.6.3.2).
15.12.6.3.1 Verifier Cross-Connection Test by Individual Pressurization. If verified by
initial pressurization, the following shall apply:
(1) All gas and vacuum piping systems shall be reduced to atmospheric pressure.
(2) All sources of test gas for all of the gas and vacuum systems, with the exception of the one
system to be checked, shall be disconnected.
(3) The system being checked shall be pressurized to a gauge pressure of 345 kPa (50 psi).
(4) With adapters matching outlet labels, each individual station outlet/inlet of all medical gas
and vacuum systems installed shall be checked to determine that test gas is being dispensed
only from the outlets/inlets of the piping system being tested.
(5) The source of test gas shall be disconnected, and the system that was tested reduced to
atmospheric pressure.
(6) Proceed to test each additional piping system until all gas and vacuum piping systems
requiring verification are free of cross-connections.
(7) Any cross-connections shall be removed and the associated piping repaired and tested for
leaks.
15.12.6.3.2 Verifier Cross-Connection Test by Pressure Differential. If verified by pressure
differential, the following shall apply:
(1) The pressure in all piping systems shall be reduced to atmospheric.
(2) The test gas pressure in all piping systems shall be increased to the values indicated below,
simultaneously maintaining these nominal pressures throughout the test.
Medical air = 415 kPa (60 psi)
Oxygen = 345 kPA (50 psi)
Nitrous oxide = 275 kPa (40 psi)
Nitrogen or instrument air = 210 kPa (30 psi)
Dental-surgical-vacuum = 510 mm (20 in.) HgV
WAGD = 380 mm (15 in.) HgV
(3) Any vacuum systems shall be operational so that these vacuum systems are tested at the
same time the gas systems are tested.
(4) Following the adjustment of pressures in accordance with 15.12.6.3.2 (2), each station
outlet/inlet shall be tested using the gas-specific connection for each system with a test
gauge attached to verify that the correct test pressure/vacuum is present at each outlet/inlet
of each system.
(5) Each test gauge used in performing this test shall be calibrated with the pressure indicator
used for the line pressure regulator used to provide the source pressure.
(6) Each station outlet/inlet shall be identified by label (and color marking, if used), and the
pressure indicated on the test gauge shall be that listed in 15.12.6.3.2 (2) for the system
being tested.
(7) Any cross-connections shall be removed and the associated piping repaired and tested for
leaks.
15.12.6.4 Verifier Piping Purge Test.
15.12.6.4.1 In order to remove any traces of particulate matter deposited in the positive pressure
gas piping during construction, a heavy, intermittent purging of the piping shall be done.
15.12.6.4.2 The appropriate adapter shall be obtained and high purge rates of at least 225
Nl/min (8 SCFM) shall be put on each outlet.
15.12.6.4.3 After each purge is started, it shall be rapidly interrupted several times until the
purge produces no discoloration in a white cloth loosely held over the adapter during the purge.
15.12.6.4.4 In order to avoid possible damage to the outlet and its components, this test shall
not be conducted using any implement other than the proper adapter.
15.12.6.4.5 No pronounced or objectionable odor shall be discernible from any positive
pressure outlet.
15.12.6.5 Verifier Piping Particulate Test.
15.12.6.5.1 For each positive pressure gas system, the cleanliness of the piping system shall be
verified.
15.12.6.5.2 The test shall be performed with the use of oil-free, dry nitrogen NF.
15.12.6.5.3 A minimum of 1000 L (35 ft3) of gas shall be filtered through a clean, white 0.45
micron filter at a minimum flow rate of 100 Nl/min (3.5 SCFM).
15.12.6.5.4 Fifty percent (50%) of the zones shall be tested at the outlet most remote from the
source.
15.12.6.5.5 The filter shall accrue no more than 0.001 g (1 mg) of matter from any outlet tested.
15.12.6.5.6 If any outlet fails this test, the most remote outlet in every zone shall be tested.
15.12.6.6 Verifier Piping Purity Test.
15.12.6.6.1 For each gas system, the purity of the piping system shall be verified in accordance
with 15.12.6.6.
15.12.6.6.2 These tests shall be performed with oil-free, dry nitrogen NF or the system gas.
15.12.6.6.3 The outlet most remote from the source shall be tested for total non-methane
hydrocarbons and compared to the test of the source gas.
15.12.6.6.4 If the system gas is used as the source gas, it shall be tested at the source equipment.
15.12.6.6.5 The difference between the two tests shall in no case exceed 5 ppm of total non-
methane hydrocarbons.
15.12.6.6.6 The difference between the two tests shall in no case exceed 5 ppm halogenated
hydrocarbons.
15.12.6.6.7 The moisture concentration of the outlet test shall not exceed 500 ppm or an
equivalent pressure dew point of -12°C (10°F) at a gauge pressure of 345 kPa (50 psi).
15.12.6.7 Verifier Final Tie-In Test.
15.12.6.7.1 Prior to the connection of any work or any extension or addition to an existing
piping system, the verification tests in 15.12.6 shall be successfully performed on the new work.
15.12.6.7.2 Each joint in the final connection between the new work and the existing system
shall be leak-tested with the gas of system designation at the normal operating pressure by means
of a leak detectant that is safe for use with oxygen and does not contain ammonia.
15.12.6.7.3 Vacuum joints shall be tested using an ultrasonic leak detector or other means that
will allow detection of leaks in an active vacuum system.
15.12.6.7.4 For pressure gases, immediately after the final brazed connection is made and leak-
tested, an outlet in the new piping and an outlet in the existing piping that are immediately
downstream from the point or area of intrusion shall be purged in accordance with the applicable
requirements of 15.12.6.4.
15.12.6.7.5 Before the new work is used for patient care, positive pressure gases shall be tested
for operational pressure and gas concentration in accordance with 15.12.6.8 and 15.12.6.9.
15.12.6.7.6 Permanent records of these tests shall be maintained.
15.12.6.8 Verifier Operational Pressure Test.
15.12.6.8.1 Operational pressure tests shall be performed at each station outlet/inlet or terminal
where the user makes connections and disconnections.
15.12.6.8.2 Tests shall be performed with the gas of system designation or the operating
vacuum.
15.12.6.8.3 All medical gas outlets with a gauge pressure of 345 kPa (50 psi), including
oxygen, nitrous oxide, and medical air, shall deliver 100 SLPM (3.5 SCFM) with a pressure drop
of not more than 35 kPa (5 psi) and static pressure of 345 kPa to 380 kPa (50 psi to 55 psi).
15.12.6.8.4 Support gas outlets shall deliver 140 SLPM (5.0 SCFM) with a pressure drop of not
more than 35 kPa (5 psi) gauge and static pressure of 1100 kPa to 1275 kPa (160 psi to 185 psi)
gauge.
15.12.6.8.5 Dental-surgical vacuum inlets shall draw 85 Nl/min (3 SCFM) without reducing the
vacuum pressure below 300 mm (12 in.) gauge HgV at any adjacent station inlet.
15.12.6.9 Verifier Gas Concentration Test. After purging each system with the gas of system
designation, the following shall be performed:
(1) Each pressure gas source and outlet shall be analyzed for concentration of gas, by volume.
(2) Analysis shall be conducted with instruments designed to measure the specific gas
dispensed.
(3) Allowable concentrations shall be as indicated below:
Oxygen ≥99% oxygen
Nitrous oxide ≥99% nitrous oxide
Nitrogen ≤1% oxygen or ≥99%nitrogen
Medical air 19.5% - 23.5% oxygen
Other gases ±1% unless otherwise specified
15.12.6.10 Verifier Medical Air Purity Test for Compressor Sources.
15.12.6.10.1 The medical air compressor source shall be analyzed for concentration of
contaminants by volume prior to the source valve being opened.
15.12.6.10.2 A sample(s) shall be taken for the air system test at the system sample port.
15.12.6.10.3 The test results shall not exceed the parameters below:
Pressure dew point 2°C (35°F)
Carbon monoxide 10 ppm
Carbon dioxide 500 ppm
Gaseous hydrocarbons 25 ppm (as methane)
Halogenated hydrocarbons 2 ppm
15.13 Operation and Management.
15.13.1 System Shutdowns.
15.13.1.1 Gas and vacuum piping systems shall be shut down at the end of each work day.
15.13.1.2 Emergency shutoff valves or remote actuators shall not be used for daily shutdown of
the systems. Cylinder gas valves shall be used for daily shutdowns.
15.13.2 Prohibited Interconnections.
15.13.2.1 Two or more piping systems for different gases or different vacuums shall not be
interconnected for testing or any other reason.
15.13.2.2 Leak testing shall be accomplished by separately charging and testing each individual
piping system.
15.13.3 Manufacturer's Instructions.
15.13.3.1 Piping system components shall be installed, adjusted, operated, and maintained in
accordance with the manufacturer's instructions.
15.13.3.2 Copies of the manufacturer's instructions shall be provided to the facility and
maintained at the facility.
15.13.4 Maintenance.
15.13.4.1 Gas and vacuum system equipment shall be maintained by a qualified representative
of the equipment manufacturer.
15.13.5 Periodic Testing.
15.13.5.1 Station inlets for medical-surgical vacuum shall be tested for flow and vacuum on an
approved schedule.
Statement: Committee Input 648 proposed a new chapter
on dental gas and vacuum systems because the unique and
specific needs of those system. This text was formulated
by a task group of HEA-PIP. The CC is creating this FCR
to allow for a public review of the full proposed text.
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